realFP/test_realfp.json

[{"question": "How many golf balls put into the worlds oceans would it take to submerge all of the land on earth from the displaced water?", "program": "PROGRAM:=Q1: What is the volume of the oceans?=Q2: What is the volume of a golf ball?=A1: 1.3e+9 km**3=A2: 4e-5 km**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "3.20E+13", "context": "CONTEXT:=F1: The volume of the oceans is 1.3e+9 km**3=F2: The volume of a golf ball is 4e-5 km**3"}, {"question": "What fraction of the sun's energy output is intercepted by the earth?", "program": "PROGRAM:=Q1: What is the total energy radiated by the sun?=Q2: What is the energy absorbed by the earth from the sun?=A1: 3.9e+26 W*hour=A2: 8.9e+25 W*hour=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "0.23", "context": "CONTEXT:=F1: The total energy radiated by sun is 3.9e+26 Wh=F2: The energy absorbed by the earth from the sun is 8.9e+25 Wh"}, {"question": "How many liters of water comes out of a water fountain in a mall per day?", "program": "PROGRAM:=Q1: How many litres of water comes out of a water fountain in a mall per hour?=Q2: For how many hours, is the water fountain operational during the store hours.=A1: 150 L=A2: 12=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1800 L", "context": "CONTEXT:=F1: Approximately 150 litres of water comes out of the water fountain per hour=F2: The water fountain is operational for 12 hours in a day."}, {"question": "The effect of air pressure was demonstrated in 1654 in Magdeburg, Germany with an impressive experiment. Two hollow metal hemispheres with a flat metal rim (flange) were placed together and the air removed from the interior with a primitive vacuum pump. The external pressure of the air pushed them together. When they tried to pull the hemispheres apart using two rings welded to the hemispheres, they could not be pulled apart even by a number of people pulling together. The sphere produced by putting the two hemispheres together is about the size of a basketball. Estimate the force needed to pull them apart.", "program": "PROGRAM:=Q1: What is the ratio of the force constant to the distance between the hemispheres?=Q2: What is the product of magnitude of two balls?=Q3: What is the force constant?=Q4: What is the distance between the two hemispheres?=Q5: What is the magnitude of one charge?=Q6: What is the magnitude of another charge?=A1: 9e+9 N*m**2*C**-2=A2: 1 m**2=A3: 148479 C=A4: 148479 C=Q6 -> A4 | F4=Q5 -> A3 | F3=Q2 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q3 -> A1 | F1=Q1 -> Div (Q3, Q4)=P: Mul (Q1, Q2)", "answer": "1.6e+20 N", "context": "CONTEXT:=F1: The force constant is 9e+9 N*m**2*C**-2=F2: The distance between hemispheres is 1m**2=F3: The magnitude of charge of the coin is 148479 C=F4: The magnitude of another charge is 148479 C"}, {"question": "What would be the effect to the oceans If all fishing was banned for four days once a year across the planet?", "program": "PROGRAM:=Q1: How many fish are captured every day by fishermen around the world?=Q2: For how many days will the fishing be stopped in a year?=A1: 200e+6=A2: 4=Q2 -> A2 | F2=Q1 -> A1 | F1 & F3=P: Mul (Q1, Q2)", "answer": "8.00E+08", "context": "CONTEXT:=F1: Around 200e+6 fishes are caught every day by fishermen.=F2: The fishing will be stopped for 4 days in a year.=F3: The number of fish saved in a year will be the product of F1 & F2 which will also have a positive effect on the marine ecosystem of the oceans."}, {"question": "How much energy does it take to repair damaged tissue?", "program": "PROGRAM:=Q1: How much protein does it take to repair a normal tissue?=Q2: What is the energy present in one gram of protein?=A1: 4 cal*g**-1=A2: 43 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "172 cal", "context": "CONTEXT:=F1: 4 calories of energy is present in a single gram of protein.=F2: 43 gram of protein is required to treat a damaged tissue."}, {"question": "How many RBCs equal one cc in volume?", "program": "PROGRAM:=Q1: What is the volume of a single red blood cell?=Q2: How many cubic centimeters is 1 cc=A1: 87e-12 cm**3=A2: 1 cm**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "11494252873", "context": "CONTEXT:=F1: The volume of a single red blood cell is 87e-12 cc=F2: 1 cubic centimeter makes up 1 cc"}, {"question": "How much does RFK baseball stadium weigh?", "program": "PROGRAM:=Q1: What is the capacity of the stadium?=Q2: What is the average holding capacity of the area covering one seat?=Q3: What is the average weight of a person?=Q4: How many times per person's weight, is the capacity of the area under the seat?=A1: 45596=A2: 60 kg=A3: 5=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.3e+7 kg", "context": "CONTEXT:=F1: The capacity of RFK stadium is 45596.=F2: The average weight of a person is 60 kgs.=F3: The floor under the seat's capacity is built in such a way that it can handle 5x of the weight assumed inorder to not collapse."}, {"question": "What's the smallest population the human race can reach that would allow it to re-populate?", "program": "PROGRAM:=A1: 500=P: A1 | F1", "answer": "500", "context": "CONTEXT:=F1: The minimum number of people required to repopulate the entire human race is 500."}, {"question": "How much of the Earth's atmosphere has passed through a combustion or jet engine?", "program": "PROGRAM:=Q1: What is the total volume of the stratosphere?=Q2: What is the total volume of Earth's atmosphere?=A1: 1.26e+6 km**3=A2: 4.2e+9 km**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.50E-04", "context": "CONTEXT:=F1: The volume of Earth's stratosphere is 1.26e+6 cubic km (since jets always fly in the stratosphere)=F2: The volume of Earth's atmosphere is 4.2e+9 cubic km"}, {"question": "If all of the cars in the U.S. got at least 25 miles per gallon, how many gallons of gas would be saved this year?", "program": "PROGRAM:=Q1: What is the total fuel consumption of cars in the US if the mileage is 25 miles/gallon.=Q2: What is the total fuel consumption of cars in the US if the mileage is 20 miles/gallon.=Q3: What is the total distance travelled by all the cars in the US in a year?=Q4: What is the new mileage?=Q5: What is the old mileage?=A1: 25 miles*gal**-1=A2: 20 miles*gal**-1=A3: 6e+7 miles=Q5 -> A2 | F2=Q4 -> A1 | F1=Q3 -> A3 | F3=Q1 -> Div (Q3, Q4)=Q2 -> Div (Q3, Q5)=P: Sub (Q2, Q1)", "answer": "600000 gal", "context": "CONTEXT:=F1: The new mileage is 25 miles/gallon.=F2: The old mileage is 20 miles/gallon.=F3: The distance covered by all the cars in the US in a year is around 6e+7 miles [estimate]"}, {"question": "How many packets are needed to measure a single line of M&Ms to a distance of 100m?", "program": "PROGRAM:=Q1: What is the average quantity of M&Ms in a packet?=Q2: What is the total number of M&Ms spread out?=Q3: What is the diameter of a single M&M?=Q4: What is the total distance covered by the M&Ms?=A1: 0.0104 m=A2: 100 m=A3: 210=Q4 -> A2 | F2=Q3 -> A1 | F1=Q2 -> Div (Q4, Q3)=Q1 -> A3 | F3=P: Div(Q2, Q1)", "answer": "46", "context": "CONTEXT:=F1: The diameter of a single M&M is 0.0104m=F2: The distance to be measured is 100m=F3: The average number of M&Ms in a packet is 210"}, {"question": "The SO bacterium takes 6 minutes to reproduce. If the SO bacteria don't die, how many hours will it take for two to reproduce and make a volume equal to that of the earth?", "program": "PROGRAM:=Q1: What is the bacterium equivalent to the volume of the earth?=Q2: What is the relation between bacterium to be produced and the rate of growth of bacteria per hour?=Q3: What is the volume of the earth?=Q4: What is the volume of a single bacterium?=A1: 1e+6 hour**-1=A2: 1083206916846 km**3=A3: 2e-30 km**3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Div (Q1, Q2)", "answer": "5.41e+35 hour", "context": "CONTEXT:=F1: Around 1e+6 bacteria are produced each hour.=F2: The volume of earth is 1083206916846 km**3=F3: The volume of single bacteria is 2e-30 km**3"}, {"question": "How many seconds would it take the sound from a volcano's eruption to travel around the Earth?", "program": "PROGRAM:=Q1: What is the speed of sound?=Q2: What is the circumference of the Earth in meters?=A1: 343 m*s**-1=A2: 40075000 m=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "116836 s", "context": "CONTEXT:=F1: The speed of sound is 343 meters/sec=F2: The circumference of earth is 40075000 meters"}, {"question": "How much CO2 do we save in winter on heating when the earth gets 2C warmer?", "program": "PROGRAM:=Q1: What is the heat generated when the earth gets warmer by 2 degree C=Q2: How much heat is generated by a single kg of CO2?=A1: 10e+10 J=A2: 50 J*kg**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2e+9 kg", "context": "CONTEXT:=F1: Approximately 10e+10 J of heat is produced when earth raises its temperature by 2 degrees C. [estimate]=F2: Around 50 J of heat is produced on heating 1 kg of CO2. [estimate]"}, {"question": "How many drops of water are needed to fill an Olympic swimming pool?", "program": "PROGRAM:=Q1: What is the volume of an Olympic swimming pool?=Q2: What is the volume of a single drop of water?=A1: 2500 m**3=A2: 18e-10 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "1.30E+12", "context": "CONTEXT:=F1: The volume of the swimming pool is 2500 cubic metre=F2: The volume of a single water drop is 18e-10 cubic metre"}, {"question": "How many jumps would you need to travel across a carpet?", "program": "PROGRAM:=Q1: What is the length of the carpet?=Q2: What is the average distance covered through a single jump?=A1: 15 ft=A2: 7 ft=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2", "context": "CONTEXT:=F1: The length of the carpet is 15 ft=F2: The distance covered in one jump on an average is 7 ft."}, {"question": "How many gallons of water in the Atlantic ocean?", "program": "PROGRAM:=Q1: What fraction of the oceans does the Atlantic ocean account for?=Q2: How many gallons of water are present in all of the oceans?=A1: 0.23=A2: 3.52e+20=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "8.00E+19", "context": "CONTEXT:=F1: The fraction of the oceans that the Atlantic ocean accounts for is 23%=F2: 3.52e+20 gallons of water is present in all oceans"}, {"question": "What is the volume (cubic meters) of the earth's oceans?", "program": "PROGRAM:=Q1: What is the mass of water in earth's oceans?=Q2: What is the density of water in earth's oceans?=A1: 1.4e+21 kg=A2: 1000 kg*m**-3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "1400000000000000000 m**3", "context": "CONTEXT:=F1: The mass of water in earth's oceans is 1.4e+21 kgs=F2: The density of water in earth's oceans is 1000 kg per metre cube"}, {"question": "Estimate the total number of sheets of 8.5 x 11 inch paper used by all the students at the University of Maryland in one semester.", "program": "PROGRAM:=Q6: How many weeks are there in a semester?=Q5: How much paper is used at the university each week?=Q1: How many days are there in a week?=Q2: What is the total paper consumption in the school in a day?=Q3: How many students does the University of Maryland have in total?=Q4: How many pages does a single student use in a day?=A1: 7=A2: 40000=A3: 40=A4: 16=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F4=Q5 -> Mul (Q1, Q2)=Q6 -> A4 | F1=P: Mul (Q5, Q6)", "answer": "179200000", "context": "CONTEXT:=F1: There are 16 weeks in a semester.=F2: There are 40000 students in the University of Maryland=F3: An average student uses 40 pages per day.=F4: There are 7 days in a week"}, {"question": "How many kilograms of co2 would i have to breath out to lose 1 kg of fat?", "program": "PROGRAM:=Q1: How much CO2 energy is burnt while exhaling CO2 in a single breath?=Q2: How much energy is required to lose 1 kg of fat?=A1: 0.36 kg*cal**-1=A2: 7700 cal=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2772 kg", "context": "CONTEXT:=F1: Around 0.36 kgs of CO2 is taken in to generate 1 calorie of energy.=F2: 7700 cal of energy is required to burn 1 kg of fat."}, {"question": "How much rice can fit in an average sized house?", "program": "PROGRAM:=Q1: What is the total volume of the Panama canal?=Q2: What is the volume of a single grain of rice?=Q3: What is the average ceiling height in a house?=Q4: What is the surface area of an average house?=A1: 1e-8 m**3=A2: 4.8 m=A3: 41.8 m**2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.00E+10", "context": "CONTEXT:=F1: The volume of a grain of rice is 1e-8 metre cube=F2:The average ceiling height of a house is 4.8 metres=F3: The average area of a normal house is 41.8 metre square."}, {"question": "How much extra time would Americans spend in the car if the speed limits were decreased by 10 mph, assuming everyone strictly adheres to speed limits?", "program": "PROGRAM:=Q1: What is the time gained when the car's speed is decreased by 10 mph with the distance being the same?=Q2: What is the average time spent by an American in a car in a day?=Q3: What is the total time gain?=A1: 0.3 hour/hour=A2: 2 hour=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul (Q1, Q2)=Q2 -> A2 | F2=P: Add (Q3, Q2)", "answer": "2.6 hour", "context": "CONTEXT:=F1: The time gained by a car when the car's speed is decreased from 40 mph to 30 mph to cover the same distance is 0.3 hours per hour (assuming initial speed is 40 mph)=F2: The average time spent by an American in a car in a day is 2 hours."}, {"question": "What is the mass, g, of the Earth?", "program": "PROGRAM:=Q1: What is the density of earth?=Q2: What is the volume of the earth?=A1: 5.5g*cm**-3=A2: 1e+27 cm**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "5.5e+27 g", "context": "CONTEXT:=F1: The density of earth is 5.5 gm per cc=F2: The volume of earth is 1e+27 cc"}, {"question": "How much money is spent in the school canteen in a week?", "program": "PROGRAM:=Q3: How much money is spent in the school canteen each day?=Q1: How many students does a school have in total?=Q2: How much does an average student spend in the school canteen each day?=Q4: How many days are there in a school-week?=A1: 516=A2: 2=A3: 5=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul (Q1, Q2)=Q4 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "$7224", "context": "CONTEXT:=F1: There are 516 students in a school.=F2: An average student spends on an average of 2 USD per day at the canteen.=F3: There are 5 days in a school week."}, {"question": "How much would the human skeleton weigh if it was made of iron?", "program": "PROGRAM:=Q1: What is the mass of the human skeleton?=Q2: What is the ratio of density of iron to calcium?=Q3: What is the density of iron?=Q4: What is the density of calcium?=A1: 12 kg=A2: 7.86 g*cm**-3=A3: 1.55 g*cm**-3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "60.8 kg", "context": "CONTEXT:=F1: The mass of human skeleton is 12 kgs=F2: The density of iron is 7.86 g/cc=F3: The density of calcium is 1.55 g/cc"}, {"question": "What percentage of people have the ability to whistle?", "program": "PROGRAM:=Q1: In a concert, how many people enjoy the music by whistling?=Q2: What is the average capacity of a concert?=Q3: What fraction of people have the ability to whistle?=Q4: What is the multiplicating factor to convert he fraction to percent?=A1: 500=A2: 4000=A3: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=Q4 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "12.5", "context": "CONTEXT:=F1: In an average concert, around 500 people enjoy the music by whistling along.=F2: The average footfall of a concert is 4000 people=F3: multiplicating factor to convert he fraction to percent is 100"}, {"question": "What is the number of square inches of pizza consumed by all the students at the University of Maryland during one semester?", "program": "PROGRAM:=Q7: How many pizzas are eaten during a whole semester?=Q8: What is the average area of the pizza?=Q1: How many months are there in a semester?=Q2: What is the total pizza consumption by the class in a month?=Q3: What is the frequency of ordering pizzas by the class students in a month?=Q4: What is the total pizza consumption on a single day by the entire class?=Q5: What is the average class size?=Q6: What is the average capacity of a student?=A1: 4=A2: 15=A3: 21=A4: 0.5=A5: 10 in**2=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=Q7 -> Mul (Q1, Q2)=Q8 -> A5 | F5=P: Mul (Q7, Q8)", "answer": "6300 inch**2", "context": "CONTEXT:=F1: There are 4 months in a semester.=F2: The frequency of ordering pizzas is 15 times a month.=F3: The average size of the class is 21,=F4: The average capacity of a student is 3 slices i.e 0.5 pizza.=F5: The average area of a pizza is 10 square inches."}, {"question": "How many people in the world are talking on their cell phones at this instant?", "program": "PROGRAM:=Q1: What is the total world population?=Q4: What is the fraction of people talking on the phone right now?=Q2: What is the average phone talk time?=Q3: What is the duration of the day in minutes?=A1: 7000000000=A2: 3 min=A3: 1440 min=Q3 -> A3 | F3=Q2 -> A2 | F2=Q4 -> Div (Q2, Q3)=Q1 -> A1 | F1=P: Mul (Q1, Q4)", "answer": "14583333", "context": "CONTEXT:=F1: The total world population is 7 billion=F2: The phone talk time is 3 minutes=F3: There are 1440 minutes in a day."}, {"question": "If all the pickles sold in the U.S. be arranged side by side, how long would it be?", "program": "PROGRAM:=Q1: What is the average length of a pickle?=Q2: How many pickles are sold in the US every year?=A1: 18 cm=A2: 245e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4.4e+9 cm", "context": "CONTEXT:=F1: The average length of a pickle is around 18 cm.=F2: Around 245e+6 pickles are sold in the US every year."}, {"question": "What is the total mass in kilograms of all the students in your school?", "program": "PROGRAM:=Q1: What is the average number of students in a school?=Q2: What is the average mass of a school going student?=A1: 516=A2: 36.5 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "18834 kg", "context": "CONTEXT:=F1: The average number of students in a school is 516=F2: The average mass of a school going student is 36.5 kg."}, {"question": "How many electrons pass through a lighted 60 watt bulb in a day?", "program": "PROGRAM:=Q1: What is the current flowing through the 60 W bulb?=Q2: How many seconds are there in a day?=Q3: How many electrons are there in a single coulomb charge?=Q4: How many coulombs are flowing through the bulb in a second?=A1: 86400=A2: 6.2e+18=A3: 0.5=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "2.68E+23", "context": "CONTEXT:=F1: There are 86400 seconds in a day.=F2: There are 6.2e+18 electrons flowing in a single coulomb charge.=F3: The coulombs passing through the bulb in a second is 0.5"}, {"question": "How much does it actually cost to maintain the internet?", "program": "PROGRAM:=Q1: How many ISP providers are there in the world?=Q2: What is the average cost put up by an ISP provider each year to keep running?=A1: 10000=A2: 1e+7=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$100000000000", "context": "CONTEXT:=F1: There are around 10000 ISP providers in the world.=F2: The average cost put up by a single ISP provider to keep running is 1e+7 USD"}, {"question": "At the moment the sun is fully below the horizon, how far away would someone have to be to witness the moment the sun rises fully ABOVE the horizon?", "program": "PROGRAM:=A1: 15000 km=P: A1 | F1", "answer": "15000 km", "context": "CONTEXT:=F1: The distance between two places on earth that have a time zone difference of around 12 hours is around 15000 km. To observe the phenomenon, while one place is having sunset, the other place should be having sunrise and this happens when the timezone difference between two places is around 12 hours."}, {"question": "If all books sold in the United States are read on Kindle instead, how many trees can be saved?", "program": "PROGRAM:=Q4: How many trees are cut to produce enough paper for a book?=Q3: How many books are sold in the United States?=Q1: What is the population of the US?=Q2: How many books does an average US citizen buy each year?=A1: 348200000=A2: 12=A3: 0.08=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul (Q1, Q2)=Q4 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "334272000", "context": "CONTEXT:=F1: The population of US is 348200000=F2: An average American, buys 12 books each year.=F3: 0.08 trees are cut to produce enough paper for a book."}, {"question": "How large would a room have to be for a 60 watt lightbulb suspended in the middle to cast no light on any walls?", "program": "PROGRAM:=Q1: How much length of the room would a normal 12 W bulb cover?=Q2: How many times of a 12 W bulb is a 60 Watt bulb?=A1: 19 ft=A2: 5=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "95 ft", "context": "CONTEXT:=F1: The length of a room that a normal 12 Watt bulb covers is 19 feet.=F2: A 60 watt bulb is 5 times that of a 12 Watt bulb"}, {"question": "How much water is wasted by people waiting for it to get hot for showers?", "program": "PROGRAM:=Q1: What is the average wait time for water to get heated in a shower?=Q2: What is the rate at which water flows in a shower?=A1: 20 s=A2: 0.13 L*s**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.6 L", "context": "CONTEXT:=F1: The average wait time for water to get heated in a shower is 20 seconds.=F2: The rate of flow of water in shower is 0.13 L/sec"}, {"question": "How many students are there in North America?", "program": "PROGRAM:=Q1: How any educational institutions are there in North America?=Q2: How many students are present in an educational institution on an average?=A1: 300000=A2: 700=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "210000000", "context": "CONTEXT:=F1: There are around 300000 educational institutions in all of North America.=F2: On an average, there are 700 students in each of the educational institutions."}, {"question": "The total volume of flatulence produced by the human race each day?", "program": "PROGRAM:=Q1: How many humans are there in the world?=Q2: The total volume of fart from a human body daily is?=A1: 7.2e+9=A2: 0.8 L=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5760000000 L", "context": "CONTEXT:=F1: The total world population is 7.2e+9=F2: The total volume of fart from a human body daily is 0.8 L"}, {"question": "How much is it possible to heat a glass of water by stirring it vigorously?", "program": "PROGRAM:=Q1: For how many vigorous stirrings does the temperature of water in the glass increase by 1 degree celsius?=Q2: What is the average number of stirrings done on water while serving it as coffee/tea?=A1: 0.01 degree C=A2: 50=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.5 degree C", "context": "CONTEXT:=F1: For every 100 stirrings, the temperature of water increases by 1 degree celsius.=F2: The average number of stirrings done on water while serving it as tea/coffee is 50"}, {"question": "This winter, the East coast has been hit by a number of snow storms. How many hours does a person spend shoveling the walk way after a snow storm.", "program": "PROGRAM:=Q1: What is the volume of ice accumulated on the driveway after a typical snowstorm?=Q2: How long does it take to clear 1 metre cube of ice?=A1: 60 m**3=A2: 10 min/m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "600 min", "context": "CONTEXT:=F1: The volume of ice accumulated on the driveway after a typical snowstorm is around 60 metre cube=F2: It takes around 10 minutes to clear out 1 metre cube of ice."}, {"question": "How many oat cylinders are in a cereal box containing 425 g?", "program": "PROGRAM:=Q14: What is the mass of the cereal box?=Q13: What is the mass of a single oat cylinder?=Q1: What is the density of the cereal ingredient?=Q2: What is the volume of the cheerio?=Q3: What is the exterior volume of the cheerio?=Q4: What is the interior volume of the cheerio?=Q5: What is the exterior diameter square?=Q6: What is the interior diameter square?=Q7: What is the height of the cheerio?=Q8: What is the relationship between the height and radius for the volume?=Q9: What is the exterior diameter?=Q10: What is the interior diameter?=Q11: What is the relation between exterior diamter and it square?=Q12: What is the relation between interior diamter and it square?=A1: 0.14g*cm**-3=A2: 1 cm=A3: 0.4 cm=A4: 0.4 cm=A5: 2=A6: 2=A7: 425 g=Q12 -> A6 | F7=Q10 -> A3 | F3=Q6 -> Pow (Q10, Q12)=Q11 -> A5 | F6=Q9 -> A2 | F2=Q5 -> Pow (Q9, Q11)=Q7 -> A4 | F4 & F5=Q4 -> Mul (Q7, Q6)=Q7 -> A4 | F4 & F5=Q3 -> Mul (Q7, Q5)=Q2 -> Sub (Q3, Q4)=Q1 -> A1 | F1=Q13 -> Mul (Q1, Q2)=Q14 -> A7 | F8=P: Div (Q14, Q13)", "answer": "9042", "context": "CONTEXT:=F1: The density of cereal ingredient is 0.14 g/cc=F2: The exterior diameter is 1 cm=F3: The interior diameter is 0.4 cm=F4: The height of the cheerio is 0.4 cm=F5: The volume of the cylinder is the product of diameter square and height.=F6: What is the relation between exterior diamter and it square is 2.=F7: What is the relation between interior diamter and it square is 2.=F8: The mass of the cereal box is 425 g"}, {"question": "If an average man were to have all of bones lined up, what would be their total length?", "program": "PROGRAM:=Q1: How many bones are there in the human body?=Q2: What is the average length of a single bone?=A1: 206=A2: 30 cm=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "6180 cm", "context": "CONTEXT:=F1: There are around 206 bones in the human body.=F2: The length of an average bone is 30 cm"}, {"question": "How much fish do humans consume per year?", "program": "PROGRAM:=Q1: What is the total human population?=Q2: What is the average fish consumption of a single person in a year?=A1: 7.2e+9=A2: 16.5 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.18e+11 kg", "context": "CONTEXT:=F1: The total world population is 7.2e+9=F2: The average fish consumption of a single person is 16.5 kgs per year (according to a survey in 2005)"}, {"question": "If every living thing in the ocean disappeared, how much would the water level lower?", "program": "PROGRAM:=Q1: What is the original water level of the ocean?=Q2: What is the new water level of the ocean?=Q3: What is the new volume of the ocean?=Q4: What is the surface area of the ocean?=Q5: What is the original volume of the ocean?=Q6: What is the volume of all living things in the ocean?=Q7: How many living things are there in the ocean?=Q8: What is the average volume of a single living thing on the ocean?=A1: 3.7 km=A2: 361e+6 km**2=A3: 1335700000 km**3=A4: 1e+9=A5: 5e-3 km**3=Q8 -> A5 | F5=Q7 -> A4 | F4=Q6 -> Mul (Q7, Q8)=Q5 -> A3 | F3=Q3 -> Sub (Q5, Q6)=Q4 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "0.013 km", "context": "CONTEXT:=F1: The height of the water in ocean is 3.7 km=F2: The surface area of oceans is 361e+6 km**2=F3: The original volume of the oceans is 1335700000 km**3=F4: The number of living things in an ocean is 1e+9=F5: The average volume of a living thing in an ocean is 5e-3 km**3"}, {"question": "Since the invention of the automobile, how many people have died in the United States as a result of car accidents?", "program": "PROGRAM:=Q1: How many years has it been since the invention of the first automobile?=Q2: How many people die every year due to car accidents?=A1: 110=A2: 1.35e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.48E+08", "context": "CONTEXT:=F1: It has been 110 years since the invention of the first automobile.=F2: 1.35e+6 people die every year due to car accidents"}, {"question": "How many jelly beans fill a bucket?", "program": "PROGRAM:=Q1: What is the average volume of a bucket?=Q2: What is the average volume of a jelly bean?=A1: 0.67 ft**3=A2: 0.00012 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "5580", "context": "CONTEXT:=F1: The average volume of a bucket is 0.67 cubic feet.=F2: The average volume of a jelly-bean is 0.00012 cubic feet."}, {"question": "How many steps would I need to climb to burn as many calories as there are in a bag of potato chips?", "program": "PROGRAM:=Q1: How many calories are burnt in climbing one step?=Q2: What is the amount of calories that are to be burnt?=A1: 0.17=A2: 1242=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q2, Q1)", "answer": "7306", "context": "CONTEXT:=F1: The number of calories burnt while climbing a step is 0.17 calories=F2: The amount of calories present in a chips bag is 1242."}, {"question": "How much energy is needed to raise sea levels by 5 feet over 50 years?", "program": "PROGRAM:=Q1: How much energy is required to raise the level of sea by 0.1 ft each year?=Q2: How many years do we have?=A1: 10e+6 W=A2: 50=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5e+8 W", "context": "CONTEXT:=F1: The energy required to raise sea levels by 0.1 ft each year is 10e+6 W=F2: The number of years the height is gradually raised is 50."}, {"question": "If a person standing on the surface of the Earth was suddenly no longer affected by the Earth's gravitational pull, could they be thrown to Mars?", "program": "PROGRAM:=Q1: What is the gravitational pull from mars?=Q2: What is the mass of an average human body?=A1: 3.7 m*s**-2=A2: 62 kg=Q2 -> A2 | F2 =Q1 -> A1 | F1 & F3=P: Mul (Q1, Q2)", "answer": "229.4 kg*m*s**-2", "context": "CONTEXT:=F1: The gravitational pull on mars when the gravity on earth is absent is 3.7 m/s**2=F2: The mass of an average human is 62 kg.=F3: Given that mg is the gravitational pull that is pulling the person towards mars, since the force is very fellow, it looks that the person can't be thrown to mars."}, {"question": "By cooking, how many times does rice expand in volume?", "program": "PROGRAM:=Q1: What is the portion of rice cooker covered before cooking rice?=Q2: What is the portion of rice cooker covered after cooking rice?=A1: 0.3=A2: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "3.33", "context": "CONTEXT:=F1: The portion of rice cooker covered before cooking rice is 0.3=F2: The portion of rice cooker covered after cooking rice is 1"}, {"question": "What is the mass, grams, of a gallon of the paint?", "program": "PROGRAM:=Q1: What is the density of an average paint?=Q2: What is the total volume of paint given?=A1: 4530 g*gal**-1=A2: 1 gal=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "4530 g", "context": "CONTEXT:=F1: The density of an average paint is 4530 grams per gallon=F2: The total volume of the paint given is 1 gallon"}, {"question": "What is the value of all sunken treasure (gold and silver) in the ocean?", "program": "PROGRAM:=Q1: How much undiscovered treasure is estimated to be in the ocean?=Q2: What is the approximate value of a kg of lost treasure?=A1: 12e+9 kg=A2: $60000 kg**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$7.2e+14", "context": "CONTEXT:=F1: Approximately 12e+9 kgs of undiscovered treasure is currently sitting in the ocean?=F2: The average value of a kg of lost treasure is 60000 USD/kg"}, {"question": "What was the minimal sugar concentration in urine for doctors to be able to taste it ?", "program": "PROGRAM:=A1: 20e-3 M=P: A1 | F1", "answer": "20e-3 M", "context": "CONTEXT:=F1: The minimum sugar concentration to taste urine is 20e-3 M"}, {"question": "Assuming that humans naturally had bird like wings, how large should the wingspan need to be in order for the average human to be capable of flight?", "program": "PROGRAM:=Q1: What is the relation between the length of wingspan and the length of the flying body?=Q2: What is the average height of a human being?=A1: 0.83=A2: 170 cm=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "141 cm", "context": "CONTEXT:=F1: Ideal wingpsan length is 83% of the length of the flying body.=F2: The average body height of a person is 170 cm."}, {"question": "In a minute, all of a person's blood passes through the heart. During a day, how many times does a RBC pass through the heart?", "program": "PROGRAM:=Q1:How much blood passes through the heart in a day?=Q2: How many RBCs are present in a single liter of blood?=A1: 7000 L=A2: 4.5e+12 L**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3.15E+16", "context": "CONTEXT:=F1: Around 7000 L of blood passes through the heart every day.=F2: 4.5e+12 cells are present in a single liter of blood every day."}, {"question": "If you took all the hair on the average person's head and put it into a cylinder what would the diameter be?", "program": "PROGRAM:=Q1: What is the total volume of an average person's hair?=Q2: What is the relation between diameter of the cylinder and it's volume?=Q3: What is the value of the diameter square of the cylinder?=Q4: What is the numerical factor to convert a square to its linear form?=A1: 500 cm**3=A2: 1.3=A3: 1/3=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul (Q1, Q2)=Q4 -> A3 | F3=P: Pow (Q3, Q4)", "answer": "8.47 cm", "context": "CONTEXT:=F1: The total volume of an average person's hair is 500 cm**3=F2: The diameter of the cylinder is cube root of 1.3 times its volume given it's height is 1 cm (assumed since it is not mentioned).=F3: The numerical factor to convert a square to its linear form is 1/2"}, {"question": "How much rock (volume) would have to \"fall into the ocean\" to raise its level by even one meter?", "program": "PROGRAM:=Q1: What is the new volume of the ocean?=Q2: What is the old volume of the ocean?=Q3: What is the new depth of the ocean?=Q4: What is the surface area of the ocean?=Q5: What is the old depth of the ocean?=Q6: What is the increase in depth of the ocean?=A1: 1887000000 km**3=A2: 510e+6 km**2=A3: 3.7 km=A4: 0.001 km=Q6 -> A4 | F4=Q5 -> A3 | F3=Q3 -> Add (Q5, Q6)=Q4 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "510000 km**3", "context": "CONTEXT:=F1: The old volume of the ocean is 1.35e+9 km**3=F2: The surface area of the oceans is 510e+6 km**2=F3: The old depth of the ocean is 3.7 km=F4: The increase in depth of the ocean is 0.001 km"}, {"question": "What is the total length of all the hair in an average female human?", "program": "PROGRAM:=Q1: How many hairs does an average human have?=Q2: What is the average length of hair in a female human?=A1: 100000=A2: 30 cm=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3000000 cm", "context": "CONTEXT:=F1: The total number of hairs an average human has is 100000.=F2: The average length of hair in a female human is 30 cm"}, {"question": "For the entire United States populace, how many liters of blood are pumped each day?", "program": "PROGRAM:=Q1: How many pints of blood is donated each day in the United States?=Q2: How many pints is one litre?=A1: 43000=A2: 2.1 L**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "20476 L", "context": "CONTEXT:=F1: Around 43000 pints of blood is donated each day.=F2: 2.1 pints of blood make up a litre of blood"}, {"question": "What would be the average income of someone who lives on Earth?", "program": "PROGRAM:=Q1: What is the total income generated last year?=Q2: What is the total population on Earth?=A1: 80e+12=A2: 7.2e+9=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "$11428", "context": "CONTEXT:=F1: The total income generated last year in the world is 80e+12=F2: The total population on Earth is 7.2e+9"}, {"question": "The SO bacterium needs a living space of about 30x10-4 cm in all directions to thrive. How many of these thriving bacteria might be found in a gram of pond water?", "program": "PROGRAM:=Q1: What is the volume of a gram of pond water?=Q2: What is the volume of SO bacterium?=Q3: What is the radius of the bacterium?=Q4: What is the relationship between radius and volume of bacterium?=A1: 1 cm**3=A2: 3e-3 cm=A3: 3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Pow (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "3.70E+07", "context": "CONTEXT:=F1: The volume of a gram of pond water is 1 cc=F2: The radius of bacterium is 3e-3 cm=F3: The volume of bacteria is cube of its radius."}, {"question": "How many cigarettes have been smoked throughout history?", "program": "PROGRAM:=Q1: How many cigarettes are sold each year?=Q2: How many years has it been since the cigarettes were first commercialised?=A1: 6.9e+12=A2: 157=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.00E+15", "context": "CONTEXT:=F1: 6.9e+12 cigarettes are sold each year in the world.=F2: It has been 157 years since the cigarettes were first commercialised."}, {"question": "How much should I pay back on $100 freely given 20 years ago?", "program": "PROGRAM:=Q1: How much does a 20 year old dollar cost today?=Q2: How many dollars were freely given 20 years ago?=A1: $1.51=A2: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$151", "context": "CONTEXT:=F1: 1 dollar in 2001 costs 1.51 dollars in 2021. [from inflation data]=F2: 100 dollars were freely given 20 years ago."}, {"question": "How much money have the creators of Among Us made from their game?", "program": "PROGRAM:=Q1: What is the cost of Among Us on steam?=Q2: What is the total number of purchases of Among Us on steam?=Q3: What is the total investment put into creating Among Us?=Q4: What is the incoming revenue from the sales of Among Us on steam?=A1: $5=A2: 3.8e+6=A3: $1e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=Q4 -> Mul (Q1, Q2)=Q3 -> A3 | F3=P: Sub (Q4, Q3)", "answer": "$18e+6", "context": "CONTEXT:=F1: The cost of Among Us on steam is 5 USD=F2: The total number of purchases of Among Us on steam is 3.8e+6=F3: What is the total investment put into making Among Us?"}, {"question": "How many SO bacteria would be able to be packed into a ping pong ball?", "program": "PROGRAM:=Q1: What is the volume of a ping pong ball?=Q2: What is the volume of an SO bacterium?=A1: 33.5 cm**3=A2: 2e-12 cm**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.60E+13", "context": "CONTEXT:=F1: The volume of ping pong ball is 33.5 cc=F2: The volume of single SO bacterium is 2e-12 cc"}, {"question": "How much cash can you fit in a bag?", "program": "PROGRAM:=Q1: What is the volume of a normal bag?=Q2: What is the volume of the highest denomination note?=Q3: what is the denomination value?=Q4: What is the number of notes that fit in a bag?=A1: 30000 cm**3=A2: 1.14 cm**3=A3: $100=Q2 -> A2 | F2=Q1 -> A1| F1=Q4 -> Div (Q1, Q2)=Q3 -> A3 | F3=P: Mul (Q4, Q3)", "answer": "$2631578", "context": "CONTEXT:=F1: The volume of a normal bag is 30000 cc=F2: The volume of the highest denomination note is 1.14 cc=F3: The denomination value of the note is 100 USD"}, {"question": "How much of the atmosphere of Earth has passed through a combustion engine?", "program": "PROGRAM:=Q1: What is the area occupied by the stratosphere?=Q2: What is the area occupied by the entire atmosphere?=A1: 60 km=A2: 10000 km=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.006", "context": "CONTEXT:=F1: The atmospheric stretch occupied by the stratosphere is 60 km=F2: The atmospheric stretch occupied by the entire atmosphere is 10000 km=F3: Since airplanes fly in the stratosphere, taking into account that stratosphere will be the layer of earth that has passed through a combustion engine."}, {"question": "If the oceans dried up, estimate the thickness (cm) of the resulting layer of salt uniformly covering the earth.", "program": "PROGRAM:=Q1: What is the total volume of salt present on earth when oceans dry up?=Q2: What is the surface area of the ocean cover of earth?=Q3: What percent of the ocean's volume consists of salt?=Q4: What is the total volume of the oceans?=Q5: How many cm is one mile?=Q6: What is the thickness of salt covering the earth in miles?=A1: 1.4e+8 miles**2=A2: 0.23=A3: 2.5e+11 miles**3=A4: 160934 cm/mile=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=Q6 -> Div (Q1, Q2)=Q5 -> A4 | F4=P: Mul (Q5, Q6)", "answer": "66097892 cm", "context": "CONTEXT:=F1: The surface area of the ocean cover on Earth is 1.39e+8 miles**2=F2: The percentage of salt in oceans is 23%.=F3: The volume of oceans is 2.5e+11 miles**3=F4: 1 mile is 160934 cm"}, {"question": "Assume that all of the oxygen transported during a year in an adult male is converted to liquid water. What is the volume of that water in cc?", "program": "PROGRAM:=Q3: What is the ratio of volume of oxygen to water to volume of oxygen in a water molecule?=Q4: How many cubic centimeters of oxygen (STP) are transported during a year in an adult male?=Q1: How many cubic centimeters of oxygen (STP) are transported during a day in an adult male?=Q2: How many days are there in a year?=A1: 100 cm**3=A2: 365=A3: 1.125=Q2 -> A2 | F2=Q1 -> A1 | F1=Q4 -> Mul (Q1, Q2)=Q3 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "41062 cm**3", "context": "CONTEXT:=F1: 100 cubic centimeters of oxygen (STP) are transported during a day in an adult male.=F2: There are 365 days in a year.=F3: The ratio of volume of oxygen to water to volume of oxygen in a water molecule is 1.125"}, {"question": "How many people would be needed to surround this city if they held hands?", "program": "PROGRAM:=Q1: What is the perimeter of the city?=Q2: What is the length between both hands when holding two different people on both sides?=A1: 1673718 meters=A2: 0.6 meters=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "2789530", "context": "CONTEXT:=F1: The perimeter of California city border is 1673718 meters=F2: The average length between both hands when holding two different people on both sides is 0.6m"}, {"question": "How many cells are there in the human body?", "program": "PROGRAM:=Q1: What is the cell density in humans?=Q2: What is the total volume of a human body?=A1: 3e+9 mL**-1=A2: 62000 mL=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.86E+14", "context": "CONTEXT:=F1: The cell density in humans is 3e+9 cells/mL=F2: The total volume of a human body is 62000 mL"}, {"question": "If a ship sank and a large pocket of air was trapped in an airtight spot, how long would the air be breathable for a survivor?", "program": "PROGRAM:=Q1: What is the approximate volume content of the air pocket?=Q2: How much air does an average human breath in a minute?=A1: 1000 L=A2: 8 L*min**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "125 min", "context": "CONTEXT:=F1: The approximate volume content of the air pocket is 1000 L of O2=F2: An average human breathes 8 L of air in a minute"}, {"question": "How much force does it take for a finger to puncture a part of your body?", "program": "PROGRAM:=Q1: How much pressure does it take to puncture a small part of our body ?=Q2: What is the area of impact?=A1: 377e+6 pascal=A2: 4e-4 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "150800 N", "context": "CONTEXT:=F1: The pressure generally applied to puncture a part of our body is 377e+6 Pa (using the fact that bullet carries 377 MPa while hitting a body)=F2: The surface area of impact is 4e-4 sq.m"}, {"question": "Under ideal conditions, the bacterium eNSO can reproduce in 10 minutes. eNSO is rodlike with a diameter of 1 \u00b5m and a length of 5 \u00b5m. If eNSO eats only onions as its food source, how many minutes elapse before it consumes an amount equal to the onion mass consumed in the US in a year?", "program": "PROGRAM:=Q10: What is the total consumption of onion in a year in the US?=Q9: How much onion is eaten by the total eNSO bacterium in a minute?=Q8: How much onion does an eNSO bacterium eat in a minute?=Q7: Under ideal conditions, the bacterium eNSO can reproduce in 10 minutes. How many eNSO can claim the same ancestor after 24 hours?=Q1: What is the rate at which the bacteria reproduces?=Q2: How many times will the bacteria reproduce in the day?=Q3: How many hours are there in a day?=Q4: How many times does the bacteria reproduce in an hour?=Q5: How many minutes are there in an hour?=Q6: For how many minutes, does the bacteria reproduce?=A1: 2=A2: 24 hour=A3: 60 min*hour**-1=A4: 10 min=A5: 7.2e+9 lb=A6: 0.00005 lb*min**-1=Q6 -> A4 | F4=Q5 ->A3 | F3=Q4 -> Div (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=Q7 -> Pow (Q1, Q2)=Q8 -> A6 | F6=Q9 -> Mul (Q7, Q8)=Q10 -> A5 | F5=P: Div (Q10, Q9)", "answer": "6.5e-30 min", "context": "CONTEXT:=F1: The rate at which it reproduces is 2 offspring per reproduction.=F2: There are 24 hours in a day.=F3: There are 60 minutes in an hour.=F4: The bacteria reproduces for every 10 minutes.=F5: The total consumption of onion in the US per year is 7.2e+9 pounds=F6: Each eNSO eats 0.00005 pounds in a minute"}, {"question": "if a peacock mantis shrimp was 200 pounds and everything was scaled up accordingly, how hard would it be able to punch?", "program": "PROGRAM:=Q1: What is the average punch power of peacock mantis shrimp?=Q2: What is the ratio of the new mass of the shrimp to its original mass?=Q3: What is the new mass of the shrimp?=Q4: What is the original mass of the shrimp?=A1: 1e-3 J=A2: 200 lb=A3: 0.11 lb=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "1.8 J", "context": "CONTEXT:=F1: The average punch power of the shrimp is 1e-5 J=F2: The new mass of the shrimp is 200 pound=F3: The original mass of the shrimp is 0.11 pound"}, {"question": "If the land area of the earth were divided up equally for each person on the planet, about how much would you get?", "program": "PROGRAM:=Q1: What is the total land area of the Earth?=Q2: What is the total human population on Earth=A1: 510100000 km**2=A2: 7673500000 people=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "0.066 km ** 2 * person ** -1", "context": "CONTEXT:=F1: The total land area on earth is 510100000 sq. km=F2: The total human population is 7673500000"}, {"question": "How far could you dive into a pool filled with Nerds candy?", "program": "PROGRAM:=Q1: How far could one dive into a pool filled with water?=Q2: What is the density ratio of nerd candy and water=A1: 7 ft=A2: 3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.333 ft.", "context": "CONTEXT:=F1: The average depth one could go through a normal dive in a pool is 7 feet.=F2: The density ratio of nerd candy to water is 3 (approx)"}, {"question": "What is the volume of the Earth's oceans in cubic miles?", "program": "PROGRAM:=Q1: What is the surface area of Earth's oceans?=Q2: What is the depth of earth's oceans?=A1: 196943761 miles**2=A2: 2.3 miles=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "452970650 miles ** 3", "context": "CONTEXT:=F1: The surface area of earth's oceans is 196943761 square miles=F2: The depth of earth's ocean is 2.3 miles"}, {"question": "How many crackers would cover a sheet of paper?", "program": "PROGRAM:=Q1: What is the surface area of a sheet of paper?=Q2: What is the surface area of a single cracker?=A1: 0.5 m**2=A2: 0.0025 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "200", "context": "CONTEXT:=F1: The surface area of a sheet of paper is 0.5 sq. metre.=F2: The surface area of a single cracker is 0.0025 sq. metre"}, {"question": "What is the approximate gap between the oldest living generation to the newest?", "program": "PROGRAM:=Q1: Which year was the oldest living person alive now born in?=Q2: What is the latest year that the newest living generation was born in?=A1: 1903 year=A2: 2021 year=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q2, Q1)", "answer": "118 years", "context": "CONTEXT:=F2: The latest year that the newest living generation was born in is 2021.=F1: The current oldest living person was born in 1903"}, {"question": "How much does the total student population in your school weigh, in grams?", "program": "PROGRAM:=Q1: What is the average number of students in a single school?=Q2: What is the average weight of a school going kid?=A1: 516=A2: 35000 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "18060000 g", "context": "CONTEXT:=F1: There are 516 students on an average in a school.=F2: The weight of an average school going kid is 35000 g"}, {"question": "What's the average number of descendents per human who ever lived?", "program": "PROGRAM:=Q1: How many generations of humans have lived until now?=Q2: What is the average number of descendants for one person per generation?=A1: 300=A2: 6=Q2 -> A2 | F2=Q1 -> A1 | F2=P: Mul (Q1, Q2)", "answer": "1800", "context": "CONTEXT:=F1: The human race is 300 generations old.=F2: An average human had about 6 descendants on an average."}, {"question": "How many peas would you need to fill a bath?", "program": "PROGRAM:=Q1: What is the average volume of a bath-tub?=Q2: What is the average volume of a single pea?=A1: 10.65 ft**3=A2: 0.000035 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "304285", "context": "CONTEXT:=F1: The average volume of a bath-tub is 10.65 cubic feet.=F2: The average volume of a pea is 0.000035 cubic feet."}, {"question": "The Federal Budget Deficit is approximately $100 Billion this year. What percentage of this do Americans spend on food in restaurants in one year?", "program": "PROGRAM:=Q1: How many months are there in a year?=Q2: What is the monthly expenditure of a US consumer for food in restaurants?=A1: 12=A2: 233=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$2796", "context": "CONTEXT:=F1: There are 12 months in a year.=F2: The average monthly expenditure of a US consumer on food in restaurants is 233 USD"}, {"question": "If a planet was 5 times the size of the Earth with 1.5 times the radius, what would the surface gravity be?", "program": "PROGRAM:=Q1: What is the value of current surface gravity?=Q2: What is the product of mass and inverse of the square of the radius?=Q3: What is the new mass?=Q4: What is the inverse radius square of the new radius=Q5: What is the new radius?=Q7: What is the inverse of the radius?=Q8: What is the multiplicative factor to get the square of the radius?=Q9: What is the multiplicative factor to get the inverse of the radius?=A1: 10 m*s**-2=A2: 5=A3: 1.5=A4: 1=A5: 2=Q5 -> A3 | F3=Q9 -> A4 | F5=Q7 -> Div (Q9, Q5)=Q8 -> A5 | F4=Q4 -> Pow (Q7, Q8)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "22.2 m*s**-2", "context": "CONTEXT:=F1: The current surface gravity is 10 m/s**2=F2: The new mass is 5x the old mass=F3: The new radius is 1.5x the old radius.=F4: The multiplicative factor to get the sqaure of the radius is 2=F5: The multiplicative factor to get the inverse of the radius is 1"}, {"question": "A steel ball is dropped from a height of three meters onto a concrete floor. It bounces a large number of times but eventually comes to rest. Estimate the ball's rise in temperature.", "program": "PROGRAM:=Q1: How many times does a steel ball bounce when thrown from 3 m height?=Q2: What is the average increase in temperature per bounce of a steel ball?=A1: 50=A2: 0.05 degree=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.5 degree", "context": "CONTEXT:=F1: The steel ball bounces on an average of 50 times when thrown from 3 m. [estimate]=F2: The average increase in temperature per bounce of a steel ball is 0.05 degree"}, {"question": "How many hours of unique motion picture is there?", "program": "PROGRAM:=Q1: What is the total number of movies that have been released till now?=Q2: What is the average run time of a movie?=A1: 500000=A2: 1.5 hours=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "750000 hours", "context": "CONTEXT:=F1: Around 500000 movies have been made in the world until today.=F2: The average run time of a movie is 1.5 hours."}, {"question": "What is the weight of garbage thrown away by each family every year?", "program": "PROGRAM:=Q1: What is the average garbage thrown by a household daily?=Q2: What is the duration of a year in days?=A1: 7.8 kg=A2: 365=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2847 kg", "context": "CONTEXT:=F1: The average garbage thrown by a household daily is 7.8 kg=F2: The duration of a year in days is 365."}, {"question": "How many adults donate blood each year in the United States?", "program": "PROGRAM:=Q1: What is the total blood donated each year in the US?=Q2: What is the average blood donated by a single person?=A1: 15695000=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "7847500", "context": "CONTEXT:=F1: The total blood donated each year in the US is 15695000 pints=F2: The volume of blood donated by an average American at once is 2 pints"}, {"question": "The density of water is just about 1000 kg/m3. The density of air is just about 1000 times less. Estimate the height of the atmosphere. As a simplifying assumption, take the atmosphere to be of uniform density up to some height after which the density rapidly falls to zero.", "program": "PROGRAM:=Q1: What is the value of normal air pressure?=Q2: What is the product of density of air and acceleration due to gravity?=Q3: What is the acceleration due to gravity on earth?=Q4: What is the density of air?=Q5: What is the density of water?=Q6: What is the relationship between density of air and density of water?=A1: 101325 kg*m**-1*s**-2=A2: 10 m*s**-2=A3: 1000 kg*m**-3=A4: 1000=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Div (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "10132.5 m", "context": "CONTEXT:=F1: The value of normal air pressure is 101325 kg*m**-1*s**-2=F2: The acceleration due to gravity is 10 m*s**-2=F3: The density of water is 1000 kg*m**-3=F4: The density of air is 1000 times less than density of water."}, {"question": "If all the pizzas eaten by students in your school last year were laid out next to each other, what area would be covered?", "program": "PROGRAM:=Q7: How many pizzas are eaten during a whole year?=Q8: What is the average area of the pizza?=Q1: How many months are there in a year?=Q2: What is the total pizza consumption by the class in a month?=Q3: What is the frequency of ordering pizzas by the class students in a month?=Q4: What is the total pizza consumption on a single day by the entire class?=Q5: What is the average class size?=Q6: What is the average capacity of a student?=A1: 4=A2: 15=A3: 21=A4: 0.5=A5: 10 in**2=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=Q7 -> Mul (Q1, Q2)=Q8 -> A5 | F5=P: Mul (Q7, Q8)", "answer": "6300 in ** 2", "context": "CONTEXT:=F1: There are 12 months in a year.=F2: The frequency of ordering pizzas is 15 times a month.=F3: The average size of the class is 21,=F4: The average capacity of a student is 3 slices i.e 0.5 pizza.=F5: The average area of a pizza is 10 square inches."}, {"question": "How many LED lights could one candle power?", "program": "PROGRAM:=Q1: What is the energy generated by a candle in its lifetime?=Q2: The energy required to power one LED bulb is?=A1: 80 W=A2: 72e-3 W=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1111", "context": "CONTEXT:=F1: The energy generated by a candle in its lifetime is 80W=F2: The energy required to power an average LED bulb is 72e-3 W"}, {"question": "The SO bacterium is special because it has a tiny brain which is about the same percentage of its total weight as an adult human's. Estimate the weight, in grams, of the brain of an SO bacterium.", "program": "PROGRAM:=Q1: What is the mass of the SO bacteria?=Q2: What is the ratio of an adult human's brain to body mass?=A1: 10e-12 g=A2: 0.025=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.5E-13 g", "context": "CONTEXT:=F1: The mass of single SO bacterium is 10e-12 grams.=F2: The ratio of an adult human's brain to body mass is 1:4."}, {"question": "How many people are airborne over Europe at any one moment?", "program": "PROGRAM:=Q1: How many people are arborne at any given time?=Q2: What fraction of Earth, does Europe constitute?=A1: 1270000=A2: 0.067=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "85090", "context": "CONTEXT:=F1: At any given time, 1270000 people are airborne.=F2: The fraction of Earth as Europe is 6.7 %"}, {"question": "What is the earth's visible circumference from any given location upon the surface.", "program": "PROGRAM:=Q1: What is the earth's circumference?=Q2: About what percent of Earth's circumference is visible from any surface on earth?=A1: 40075 km=A2: 0.000016=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.64 km", "context": "CONTEXT:=F1: The circumference of earth is 40075 km=F2: About 0.000016 percent of earth's circumference is visible from any surface on earth."}, {"question": "What is the marginal value of one person watching a TV show via a paid streaming service, to the people that actually made the show?", "program": "PROGRAM:=Q1: What is the average annual cost of a streaming service?=Q2: What is the average cost in producing a TV show?=A1: 475=A2: 60e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "7.90E-06", "context": "CONTEXT:=F1: The average annual cost of a streaming service is 475 USD.=F2: The average cost of producing a TV show is 60e+6 USD (assuming it has only season)"}, {"question": "A cup of cooked rice contains how many grams of the element carbon?", "program": "PROGRAM:=Q1: What is the mass of cooked rice from a cup?=Q2: What is the mass of elemental carbon in a single gram of rice?=A1: 0.2 kg=A2: 700 g*kg**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "140 g", "context": "CONTEXT:=F1: The mass of cooked rice from a cup is 0.2 kg=F2: The mass of elemental carbon in a single gram of rice is 0.7 g*kg**-1"}, {"question": "How many people in the world are talking on their cell phones in any given minute?", "program": "PROGRAM:=Q1: What is the total world population?=Q4: What is the fraction of people talking on the phone right now?=Q2: What is the average phone talk time?=Q3: What is the duration of the day in minutes?=A1: 7000000000=A2: 3 min=A3: 1440 min=Q3 -> A3 | F3=Q2 -> A2 | F2=Q4 -> Div (Q2, Q3)=Q1 -> A1 | F1=P: Mul (Q1, Q4)", "answer": "14583333", "context": "CONTEXT:=F1: The total world population is 7 billion=F2: The phone talk time is 3 minutes=F3: There are 1440 minutes in a day."}, {"question": "If $1 was deposited in a savings account on the day of American Independence at a guaranteed rate of 5% and no money was withdrawn, how many dollars are in the account today?", "program": "PROGRAM:=Q1: What is the principal invested?=Q2: What is the interest acquired?=Q3: How many years has it been since America got independence?=Q4: What is the year over year multiplier for the amount of money?=A1: $1=A2: 251=A3: 1.05=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Pow(Q4, Q3)=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "$208215", "context": "CONTEXT:=F1: The principal amount invested is 1 dollar=F2: It has been 251 years since America got independence?=F3: The year over year multiplier for the amount of money is 1.05"}, {"question": "If microchip makers didn't keep trying to shrink their chips, how fast could your average home computer be by now?", "program": "PROGRAM:=Q1: What was the original speed of the first computer?=Q2: What is the rate of change of speed now that chipmakers are not shrinking their chips?=A1: 5000 s**-1=A2: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5000 s**-1", "context": "CONTEXT:=F1: The original speed of the first computer was 5000 cycles per second.=F2: The rate of change of speed is 1"}, {"question": "How much volume would 417234 loosely stacked cherries occupy?", "program": "PROGRAM:=Q1: How much volume does a single cherry occupy on an average?=Q2: How many cherries are loosely stacked.=A1: 4 cm**3=A2: 417234=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1668936 cm**3", "context": "CONTEXT:=F1: The average volume of a single cherry is 4.1 cc.=F2: 417234 cherries are going to be loosely stacked."}, {"question": "Estimate the consumption of pigmentary TiO2 in the United States in 2004.", "program": "PROGRAM:=Q1: How many paint boxes were sold in the US in 2004?=Q2: How many pigments of TiO2 are present in a single paint box?=A1: 120e+6=A2: 1e+21=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.20E+29", "context": "CONTEXT:=F1: 120e+6 boxes of paint containing TiO2 pigment were sold in 2004. (like in every year)=F2: About 1e+21 pigments of TiO2 are present in a single paint box."}, {"question": "If you were to have a baby in every country, What percentage of the world's population would be related to you ?", "program": "PROGRAM:=Q1: How many countries are there in the world?=Q2: What percent of a country is related to a single native person belonging to that country?=A1: 195=A2: 0.00005=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.00975", "context": "CONTEXT:=F1: It is given that the dinosaur's brain were the same size as that of a tennis ball and the volume of a tennis ball is 1.5e-4 metre cube.=F2: Around 0.00005% of a country's population is related to an individual born in that country. [assumption as no related data was found on the internet.]"}, {"question": "How much oil is there left in the world?", "program": "PROGRAM:=Q1: For how long, have we been extracting oil?=Q2: How much oil is saved each year?=Q3: What is the average oil production each year?=Q4: What is the average oil consumption each year?=A1: 1647 years=A2: 95e+9 year**-1=A3: 35e+9 year**-1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Sub(Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "9.88E+13", "context": "CONTEXT:=F1: We have been extracting oil for 1647 years.=F2: Average oil production each year is 95e+9 barrels=F3: Average oil consumption each year is 35e+9 barrels"}, {"question": "How much farmed land does one need to survive?", "program": "PROGRAM:=Q1: How much food is produced in farm land every year?=Q2: What is the food consumption of an average person every year?=Q3: What is the average area of the farmland?=Q4: What fraction of farmland is required to survive?=A1: 52000 pounds=A2: 1996 pounds=A3: 230 acres=Q2 -> A2 | F2=Q1 -> A1 | F1=Q4 -> Div (Q2, Q1)=Q3 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "8.82 acres", "context": "CONTEXT:=F1: An average farm produces around 52000 pounds of food each year.=F2: An average person's annual consumption of food is 1996 pounds=F3: The average area of the farmland is 230 acres"}, {"question": "Assuming infinite water, how much of an area will we need to cover such that the rate of heat loss from evaporation counteracts the heat gain from global warming?", "program": "PROGRAM:=Q1: How much cooling effect is provided by a single km**2 of the wate?=Q2: What is the total heat gain from global warming every year?=A1: 2 W*km**-2=A2: 69666000 W=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "34833000 km**2", "context": "CONTEXT:=F1: The cooling effect provided by a single km**2 of water is 0.5 W/km**2 [assumption]=F2: The total heat gain of global warming every year is 69666000 W"}, {"question": "How many multi-link cubes would you need to fill a fridge?", "program": "PROGRAM:=Q1: What is the average volume of a fridge?=Q2: What is the average volume of a multi-link cube?=A1: 17.25 ft**3=A2: 0.000035 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "492857", "context": "CONTEXT:=F1: The average volume of a fridge is 17.25 cubic feet.=F2: The average volume of a multi-link cube is 0.000035 cubic feet."}, {"question": "How much area would be covered if all people on earth stood together in a single crowd?", "program": "PROGRAM:=Q1: How much space does one person occupy?=Q2: What is the total population in the world?=A1: 4 ft**2=A2: 7.2e+9=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.88e+10 ft**2", "context": "CONTEXT:=F1: An average person occupies 4 sq.ft space.=F2: The total population in the world is 7.2e+9"}, {"question": "Estimate the kinetic energy the earth has as a result of its orbiting the sun.", "program": "PROGRAM:=Q1: What is the mass of the Earth?=Q2: What is the velocity at which Earth orbits the sun?=Q3: What is the square of the velocity orbiting the sun?=Q4: What is the half of mass of the sun?=A1: 6e+24 kg=A2: 30 km*hour**-1=Q2 -> A2 | F2=Q3 -> Pow (Q2, 2)=Q1 -> A1 | F1=Q4 -> Div (Q1, 2)=P: Mul (Q4, Q3)", "answer": "2.7E+27 kg*km**2*hour**-2", "context": "CONTEXT:=F1: The mass of Earth is 6*10^24 kg=F2: The velocity at which Earth revolves around the sun is 30 kmph"}, {"question": "If a human body were to increase in volume without increasing in mass how large would they have to grow before they were lighter than air?", "program": "PROGRAM:=Q1: What is the new volume of humans?=Q2: What is the old volume of humans?=Q3: What is the mass of an average human?=Q4: What is the density of the human body if it has to be lighter than air?=A1: 62000 cm**3=A2: 62 kg=A3: 0.95e-5 kg*cm**-3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "6464315 cm**3", "context": "CONTEXT:=F1: The old volume of humans is 62000 cc=F2: The mass of an average human is 62 kg=F3: The density of the human body if it has to be lighter than air is 0.95e-5 kg/cc (density of air is 1e-5 kg/cc)"}, {"question": "If Bill Gates traded everything he owned for bitcoin in 2009 and then sold in Dec 2017, how much would he have made?", "program": "PROGRAM:=Q1: What is the worth of 1 bitcoin in 2017?=Q2: How many bitcoins did Bill Gates have in 2017?=Q3: What is the price of 1 bitcoin in 2009?=Q4: What was Bill Gates Net worth in 2009?=Q5: What is the monetary worth of Bill Gates bitcoin in 2017?=A1: $20000=A2: $0.06=A3: $40e+9=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q4, Q3)=Q1 -> A1 | F1=Q5 -> Mul (Q1, Q2)=P: Sub (Q5, Q4)", "answer": "$1.33e+16", "context": "CONTEXT:=F1: The worth of one Bitcoin in 2017 was 20000 USD=F2: The price of one bitcoin in 2009 was 0.06 USD=F3: Bill Gates net worth in 2009 was 40e+9 USD"}, {"question": "What's the yearly budget of the North American and European movie and television industries combined?", "program": "PROGRAM:=Q1: What is the yearly budget of the entertainment industry in North America?=Q2: What is the yearly budget of the entertainment industry in Europe?=Q3: What is the yearly budget for movies in North American industry?=Q4: What is the yearly budget for television shows in North American Industry?=Q5: What is the yearly budget for movies in European industry?=Q6: What is the yearly budget for television shows in European industry?=A1: $65e+9=A2: $177e+9=A3: $ 59e+9=A4: $100e+9=Q6 -> A4 | F4=Q5 -> A3 | F3=Q2 -> Add (Q5, Q6)=Q4 -> A2 | F2=Q3 -> A1 | F1=Q1 -> Add (Q3, Q4)=P: Add (Q1, Q2)", "answer": "$401000000000", "context": "CONTEXT:=F1: The yearly budget for movies in North American industry 65e+9 USD=F2: The yearly budget for television shows in North American Industry 177e+9 USD.=F3: The yearly budget for movies in European industry 59e+9 USD=F4: The yearly budget for television shows in European industry is 100e+9 USD"}, {"question": "How many golf balls could you fit in a 5 gallon water cooler jug?", "program": "PROGRAM:=Q1: What is the volume of the water cooler jug given?=Q2: What is the volume of a single golf ball?=A1: 5 gal=A2: 0.01 gal=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "500", "context": "CONTEXT:=F1: The volume of the water cooler jug given is 5 gallon.=F2: The volume of a single golf ball is 0.01 gallon"}, {"question": "At what point in time have more man-years been spent playing WWII video games than were actually spent in combat in WWII?", "program": "PROGRAM:=Q1: How many total hours are spent in WWII gaming worldwide in a year?=Q2: What was the duration in history of WWII?=Q3: How many hours does an average gamer play every year on WWII games?=Q4: How many gamers play WWII games?=A1: 6 years=A2: 0.16 years=A3: 5000000=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "799994 years", "context": "CONTEXT:=F1: The duration of WWII is 6 years=F2: An average gamer spends 0.16 year in playing games during a year.=F3: There are around 5 million gamers who play WWII games."}, {"question": "Suppose a meteor made of nickel and iron falls to the earth from deep space. Estimate how much its temperature would rise on impact ignoring any atmospheric effects.", "program": "PROGRAM:=Q1: What is the energy of impact when a meteor falls on earth?=Q2: What is the product of specific heat of iron and the mass of the meteor?=Q3: What is the specific heat of iron?=Q4: What is the mass of an average meteor?=A1: 100 kg*m**2*s**-2=A2: 2 m**2*s**-2*kelvin**-1=A3: 5 kg=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "10 kelvin", "context": "CONTEXT:=F1: The average energy of impact of a meteor is 1e+6 kg*m**2*s**-2.=F2: The specific heat of iron is 2 m**2*s**-2*kelvin**-1=F3: The average mass of a meteor is 5 kg"}, {"question": "If 100% of the energy of all lightning strikes around the world could be harnessed and used, what percentage of the world's power could be supplied by lightning strikes?", "program": "PROGRAM:=Q1: What is the total energy generated by lightning in a year?=Q2: What is the total energy consumption in the world annually?=A1: 4.7e+18=A2: 575e+24=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "8.10E-09", "context": "CONTEXT:=F1: The total energy generated by lightning in a year is 4.7e+18 J=F2: The total energy consumption in the world annually is 575e+24 J"}, {"question": "If humans had wings and adequate muscles to use them, how large (area, full span) would those wings have to be for the human to be able to fly?", "program": "PROGRAM:=Q1: What is the length of the wings?=Q2: What is the breadth of the wings?=Q3: What percent of the length of the body is the length of the wingspan?=Q4: What is the average length of a body?=A1: 30 cm=A2: 0.83=A3: 174 cm=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4332.6 cm**2", "context": "CONTEXT:=F1: The breadth of the wings is around 30 cm.=F2: Around 83% of the length of the body is necessary for the wingspan of a human.=F3: The average length of a body is 174 cm."}, {"question": "How many grains of wheat in a quintal?", "program": "PROGRAM:=Q1: How many grams are there in a quintal?=Q2: How much does a grain of wheat weigh?=A1: 100000 g=A2: 0.064 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1562500", "context": "CONTEXT:=F1: 100000 gms are there in a quintal=F2: An average grain weighs 64 g"}, {"question": "Lot's wife was turned into a pillar of salt. How much salt would that produce?", "program": "PROGRAM:=A1: 60 kg=P: A1 | F1", "answer": "60 kg", "context": "CONTEXT:=F1: The average human weight is 60 kg."}, {"question": "If sea water is 3.5% of salt by weight, how many tons of salt are in a cubic mile of ocean?", "program": "PROGRAM:=Q1: How many kgs are there in a ton?=Q2: What is the mass equivalent of 1 cubic mile of ocean?=Q3: What is the percent of salt present?=Q4: What is the amount of salt present in a cubic mile of ocean?=A1: 100 kg/ton=A2: 4.1e+12 kg=A3: 0.035=Q3 -> A3 |F3=Q2 -> A2 | F2=Q4 -> Mul (Q3, Q2)=Q1 -> A1 | F1=P: Div (Q4, Q1)", "answer": "1.43e+9 ton", "context": "CONTEXT:=F1: There are 100 kgs in a ton.=F2: The mass equivalent of 1 cubic mile of ocean is 4.1e+12 kg=F3: the percent salt present is 3.5%"}, {"question": "If I were going to go to the moon and wanted to leave proof I was there that could be seen from earth, how big would the proof have to be?", "program": "PROGRAM:=Q1: What is the surface area of the moon that is visible to a normal human?=Q2: What percent of the viewing area should the proof be such that it is visible when seen from earth?=A1: 22e+6 km**2=A2: 0.5=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "11e+6 km**2", "context": "CONTEXT:=F1: The surface area of the moon that is visible to a normal human is 22e+6 km**2=F2: At Least 50% of the viewing area of the moon should be covered by the proof such that it is visible to humans from earth even when the size of moon looks crunched.."}, {"question": "Relative to the sun, what is the Earth's orbital velocity in miles per hour?", "program": "PROGRAM:=Q1: What is the circumference of the Earth's orbit (i.e distance to be covered in total)?=Q2: What is the time taken by earth to complete one revolution in hours?=Q3: What is the radius of the sun?=Q4: What is the relation between radius and the circumference of the circle?=Q5: How many days is one year?=Q6: How many hours are there in a single day?=A1: 93245446 miles=A2: 6=A3: 365 days=A4: 24 hours*day**-1=Q6 -> A4 | F4=Q5 -> A3 | F3=Q2 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q3 -> A1 | F1=Q1 -> Mul (Q3, Q4)=P: Div (Q1, Q2)", "answer": "63866 miles*hour**-1", "context": "CONTEXT:=F1: The radius of Earth's orbit is 93245446 miles=F2: The circumference of a circle is 6 times its radius=F3: There are 365 days in a year=F4: There are 24 hours in a day."}, {"question": "The cereal is poured to fill an 8 oz. bowl. Milk is then added to completely fill the bowl. How many cc of milk were added?", "program": "PROGRAM:=Q1: What is the volume of the bowl?=Q2: What is the ideal cereal to milk ratio?=A1: 240 cm**3=A2: 0.8=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "192 cm**3", "context": "CONTEXT:=F1: The volume of the bowl is 240 cc=F2: The ideal cereal to milk ratio is 4:1"}, {"question": "How many sheets of paper, laid flat, will it take to reach the moon from the Earth?", "program": "PROGRAM:=Q1: What is the distance from earth to moon?=Q2: What is the thickness of a single sheet of paper?=A1: 384400 km=A2: 1e-7 km=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "3844000000000", "context": "CONTEXT:=F1: The distance from earth to moon is 384400 km=F2: The thickness of a single sheet of paper is 1e-7 km"}, {"question": "How many unused escalators are operating world-wide right now?", "program": "PROGRAM:=Q1: What is the total number of shopping complexes in the world?=Q2: How many escalators in a single shopping complex, though operational, are unused by people, on an average?=A1: 20e+6=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4.00E+07", "context": "CONTEXT:=F1: The total number of shopping complexes in the world are 20e+6=F2: Around 2 escalators in a single shopping complex, though operational, are unused by people, on an average."}, {"question": "How many bricks are in the exterior of our school building?", "program": "PROGRAM:=Q1: What is the volume of a single brick?=Q2: What is the volume of the school's exterior?=Q3: What is the average height of a school building?=Q4: What is the surface area of the exterior of the school?=Q5: What is the perimeter of the school?=Q6: What is the breadth of the exterior?=A1: 0.0015 m**3=A2: 10 m=A3: 1000 m=A4: 0.09 m=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul(Q3, Q4)=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "600000", "context": "CONTEXT:=F1: The volume of a single brick is 0.0015 metre cube=F2: The average height of a school building is 10 meters=F3: The perimeter of an average school is 1000 meters=F4: The breadth of the exterior is 0.09 meter"}, {"question": "How many water droplets make up a stratus cloud?", "program": "PROGRAM:=Q1: What is the volume of water content in stratus clouds?=Q2: What is the volume of a single droplet of water?=A1: 1000000000 m**3=A2: 0.000000050 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.00E+16", "context": "CONTEXT:=F1: The water content in stratus clouds is 1000000000 cubic metre=F2: The volume of a single droplet of water is 0.000000050 cubic metre"}, {"question": "How many particles of flour are in a gram?", "program": "PROGRAM:=Q1: What is the weight in grams that is being referenced?=Q2: What is the weight of one particle of flour?=A1: 1 g=A2: 0.0001 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "10000", "context": "CONTEXT:=F1: The weight in grams that is being referenced is 1.=F2: The mass of a single particle of flour is 0.0001 g (assumption, since no related data was available.)"}, {"question": "What fraction of the Earth's land mass is represented by Colorado?", "program": "PROGRAM:=Q1: What is the landmass of Colorado?=Q2: What is the landmass of Earth?=A1: 269837 km**2=A2: 510000000 km**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.00052", "context": "CONTEXT:=F1: The landmass of Colorado is 269837 km**2=F2: The landmass of Earth 510000000 km**2"}, {"question": "How many pennies are needed to equal your height?", "program": "PROGRAM:=Q1: What is the height that is to be matched?=Q2: What is the thickness of a penny?=A1: 1.73 m=A2: 0.0015 m=Q2 -> A2|F2=Q1 -> A1|F1=P: Div(Q1, Q2)", "answer": "1153", "context": "CONTEXT:=F1: The height to be matched is 1.73 meters=F2: The thickness of a penny is 0.0015 metes"}, {"question": "How many Rubik's cubes could you fit inside a double-decker bus?", "program": "PROGRAM:=Q1: What is the volume of a double decker bus?=Q2: What is the volume of a single Rubik's cube?=A1: 112.5 m**3=A2: 0.00442451 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "25000", "context": "CONTEXT:=F1: The average volume of a double decker bus is 112.5 cubic metres=F2: The average volume of single Rubik's cube is 0.000442451cubic metres"}, {"question": "How old are you if you are a million days old?", "program": "PROGRAM:=Q1: How many days does a million days equal to?=Q2: How many days are there in a year?=A1: 365 days/year=A2: 1000000 days=Q1 -> A2 | F2=Q2 -> A1 | F1=P: Div(Q1, Q2)", "answer": "2740 years", "context": "CONTEXT:=F1: There are 365 days in a year.=F2: There are a 1000000 days in a million days."}, {"question": "How many cars pass by a busy road in a minute?", "program": "PROGRAM:=Q1: What is the area of the total road?=Q2: What is the average surface area of a single car?=A1: 255830 ft**2=A2: 60 ft**2=Q2 -> A2|F2=Q1 -> A1|F1=P: Div(Q1, Q2)", "answer": "4263", "context": "CONTEXT:=F1: The average surface area of a road is 255830=F2: The average surface area of the car is 60 sq. feet"}, {"question": "How many bricks are there the whole school?", "program": "PROGRAM:=Q4: How many walls are there in a school?=Q3: How many bricks are there in one wall of the classroom?=Q1: What is the surface total area of a wall?=Q2: What is the surface area of a single brick?=A1: 400=A2: 4=A3: 56=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=Q4 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "5600", "context": "CONTEXT:=F1: The surface area of the wall is 400 sq. feet=F2: The surface area of a brick is 4 sq. feet=F3: Given that we have square shaped rooms and a total of 20 classes, all on the same floor, implies that we have 56 walls."}, {"question": "We know that within the limits of measurement, the magnitudes of the negative charge on the electron and the positive charge on the proton are equal. Suppose, however, that these magnitudes differed from each other by as little as 0.0001%. With what force would two copper pennies, placed 1m apart, then repel each other?", "program": "PROGRAM:=Q1: What is the force divided by the magnitude?=Q2: What is the new multiplicative factor?=Q3: What is the force of repelling?=Q4: What is the magnitude of charge of the coin?=A1: 149963 C**2=A2: 1.6e+20 N=A3: 148479 C**2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.615e+20N", "context": "CONTEXT:=F1: The new multiplicative factor is 149963 C**2=F2: The force of repelling is 1.6e+20 N=F3: The magnitude of charge of the coin is 148479 C**2"}, {"question": "If 5 lbs of rice are cooked in ocean water, how many grams of salt are in the cooked rice?", "program": "PROGRAM:=Q1: What is the composition of salt in 1g of ocean water?=Q2: What is the given mass of rice in grams?=Q3: How many grams is 1lb?=Q4: How many lbs of rice is given?=Q5: What is the water required to cook the rice?=Q6: What is the relation between the amount of rice and water needed?=A1: 0.035=A2: 453 g*lb**-1=A3: 5lb=A4: 2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q6 -> A4 | F5=Q5 -> Mul (Q2, Q6)=Q1 -> A1 | F1 & F4=P: Mul (Q1, Q5)", "answer": "158.55 g", "context": "CONTEXT:=F1: The percentage of salt in seawater is 3.5 %=F2: 1 lb is 453 grams=F3: 5lbs is given=F4: Assuming that since we already know the salt percentage in oceans, we're taking that to be the same concentration when rice is cooked in the same water=F5: The water needed to cook is 2 times the quantity of rice."}, {"question": "If Donald Trump weighed as much as an average Clydesdale horse, but kept his current density and proportions, how tall would he be?", "program": "PROGRAM:=Q1: What is the relation between length and mass of a human being given it's surface area and density?=Q2: How many times is the new mass greater than the original mass?=Q3: What is the mass of Donald Trump?=Q4: What is the mass of an average Clydesdale horse?=A1: 190 cm=A2: 111 kg=A3: 850 kg=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q4, Q3)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1454 cm", "context": "CONTEXT:=F1: The length of a human and it's mass and linearly directly proportional to each other and the length of Donald Trump is 190 cm=F2: The mass of Donald Trump is 111 kg=F3: The mass of an average Clydesdale horse is 850 kg"}, {"question": "How thick would the Earth's atmosphere (with its current chemical composition) have to be for it to be dark at the sea-level?", "program": "PROGRAM:=Q1: What is the current thickness of earth's atmosphere?=Q2: By what factor does the earth's atmosphere has to be multiplied inorder to be dark at sea-level?=A1: 1.2 kg*m**-3=A2: 1000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1200 kg*m**-3", "context": "CONTEXT:=F1: The earth's atmosphere is 1.2 kg/m**3=F2: Inorder to be dark at sea level, the earth's atmosphere must be multiplied by 1e+3 times its current thickness."}, {"question": "How long would it take to drive on the entirety of every road in Europe at the posted speed limit?", "program": "PROGRAM:=Q1: What is the total road length in Europe?=Q2: What is the average posted speed limit in Europe?=A1: 100000 km=A2: 60 km*h**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1666 h", "context": "CONTEXT:=F1: The total road length in Europe is 100000 km=F2: The average posted speed limit in Europe is 60 kmph"}, {"question": "What is the total pressure the roof of the physics lecture hall would have to support if we had an inch of rain and the roof drains were plugged?", "program": "PROGRAM:=Q1: What is total rainfall caused by an inch of rain?=Q2: What is the area of the physics lecture hall?=A1: 940 gal=A2: 200 yard**2=Q2 -> A2 | F2 =Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "4.7 gal*yard ** -2", "context": "CONTEXT:=F1: The total rainfall caused by an inch of rain of the roof is 940 gal=F2: The area of the physics lecture hall is 200 sq yards."}, {"question": "How far can a crow fly without stopping?", "program": "PROGRAM:=Q1: What is the average distance, the crow flies in a day?=Q2: By what factor does it's ability decrease when the crow flies non stop for a day?=A1: 40 mi=A2: 0.7=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "28 mi", "context": "CONTEXT:=F1: The crow flies an average of 40 miles a day.=F2: Assuming that, without stopping for a day, the crow will be able to complete only 70% of the total distance it would cover on a normal day with stops involved in between."}, {"question": "What percent of animal life on earth do humans comprise?", "program": "PROGRAM:=Q1: What is the population of human life?=Q2: What is the total animal life on earth?=A1: 7.2e+9=A2: 10e+18=Q2 -> A2| F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "7.00E-10", "context": "CONTEXT:=F1: The population of human life is 7.2e+9=F2: The population of total animal life is 10e+18"}, {"question": "What is the weight of a typical building?", "program": "PROGRAM:=Q6: What is the mass of a single brick?=Q5: What is the average number of bricks used to build a building?=Q1: What is the square wall footage of an average building?=Q2: What is the average surface area of a single brick?=Q3: What is the perimeter of an average building?=Q4: What is the length of ceiling in the building?=A1: 0.014 meters**2=A2: 4.13 meters=A3: 2.4 meters=A4: 1.47 kg=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=Q5 -> Div (Q1, Q2)=Q6 -> A4 | F4=P: Mul (Q5, Q6)", "answer": "1040 kg", "context": "CONTEXT:=F1: The average surface area of a single brick is 0.014 metre square.=F2: The perimeter of an average house is 4.13 metre squared=F3: The ceiling height on an average house is 2.4 metres=F4: The mass of a single brick is 1.47 kg"}, {"question": "How many pennies are in a typical jar?", "program": "PROGRAM:=Q1: What is the average volume of a jar?=Q2: What is the average volume of a penny?=A1: 0.05 cm**3=A2: 0.00036 cm**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "138", "context": "CONTEXT:=F1: The average volume of a jar is 0.05 cubic metre=F2: The average volume of a penny is 0.00036 cubic metre"}, {"question": "How many ants are there?", "program": "PROGRAM:=Q1: How many species of ants are there?=Q2: How many ants are there per species?=A1: 12000=A2: 10e+10=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.20E+15", "context": "CONTEXT:=F1: There are around 12000 species of ants.=F2: There are roughly 10e+8 ants per species."}, {"question": "Approximately how many human mothers have ever lived?", "program": "PROGRAM:=Q1: Approximately how many women have lived on earth?=Q2: Approximately how many women given birth to a child?=A1: 58.5e+12=A2: 0.86=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5.03E+13", "context": "CONTEXT:=F1: Around 58.5e+12 women have lived on earth till now.=F2: Around 86 percent of the female population have been mothers. [US Data]"}, {"question": "How many times could you say the alphabet in 24 hours?", "program": "PROGRAM:=Q1: How many hours are there in a day?=Q2: What is the number of times we can say the alphabet in an hour?=Q3: How many minutes are there in an hour?=Q4: What is the number of times we can say the alphabet in a minute?=Q5: How many seconds are there in a minute?=Q6: How long does it take to say the alphabet one time?=A1: 24=A2: 60=A3: 60=A4: 20=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Div(Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul(Q3, Q4)=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "4320", "context": "CONTEXT:=F1: There are 24 hours in a day.=F2: There are 60 minutes in an hour.=F3: There are 60 seconds in a minute.=F4: It takes around 20 seconds to say the alphabet."}, {"question": "How large would an object have to be to be able to be visible to the naked eye from the Earth to the Moon?", "program": "PROGRAM:=A1: 21196 km=P: A1 | F1", "answer": "21196 km", "context": "CONTEXT:=F1: The man-made structure visible to naked eye from Earth to moon is The Great Wall of China whose size is 21196 km"}, {"question": "How many coats of paint would have to be applied to the walls of a room if a coat of paint is 1/1000 of an inch, and the room is 10 cubic feet.", "program": "PROGRAM:=Q1: What is the edge length of the room in inches?=Q2: How many coats are applied to an inch?=Q3: What is the volume of the room in in**3?=Q4: What is the relation between volume and edge length of the room?=Q5: What is the volume of room in ft**3?=Q6: What is the conversion factor between in**3 and ft**3=A1: 0.001 in=A2: 1/3=A3: 10 ft**3=A4: 1728 in**3*ft**-3=Q6 -> A4 | F4=Q5 -> A3 | F3=Q3 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q1 -> Pow (Q3, Q4)=Q2 -> A1 | F1=P: Div (Q1, Q2)", "answer": "25025", "context": "CONTEXT:=F1: One coat of paint is applied to 1/1000 of an inch.=F2: The relation between volume and edge length of the room is a cube root.=F3: The volume of the room in ft**3 is 10 ft**3.=F4: The conversion factor between ft**3 to in**3 is 1728"}, {"question": "How many goals total have been scored in every professional football game throughout history?", "program": "PROGRAM:=Q1: How many football games have been held until now?=Q2: What is the average number of goals scored in a football match?=A1: 1e+7=A2: 3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3.00E+07", "context": "CONTEXT:=F1: Around 1e+7 professional football matches have been held till now.=F2: An average of 3 goals are scored in any football match."}, {"question": "How many digital work platforms exist i.e. ones similar to Uber, Upwork, Deliveroo, Mechanical Turk, etc.?", "program": "PROGRAM:=Q1: How many unique digital work platforms are there in a single country?=Q2: How many countries in the world have a B2C software company registered in their country?=A1: 5=A2: 120=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "600", "context": "CONTEXT:=F1: On an average, each company has around 5 digital work platforms.=F2: There are roughly 120 companies that have a B2C software company in their country."}, {"question": "How fast would I have to go to make a red traffic light look green?", "program": "PROGRAM:=Q1: At what percent of the speed of light should we be travelling to experience the red shift to green?=Q2: What is the speed of light?=A1: 0.18=A2: 3e+8 m*s**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5.4e+7 m*s**-1", "context": "CONTEXT:=F1: We should be travelling at 18 percent of the speed of light to see the red light shift green.=F2: The speed of light is 3e+8 metre/sec"}, {"question": "If the contiguous 48 states were to get an average of 30 inches of rain per year, how many grams of water is that?", "program": "PROGRAM:=Q1: What is the total surface area of contiguous states?=Q2: What is the mass of 30 inch rain that falls on 1 acre of land?=A1: 15814 acre=A2: 3014094000 g*acre**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "4.7e+13 g", "context": "CONTEXT:=F1: The total surface area of contiguous states is 15814 acre=F2: The mass of 30 inch rain that falls on 1 acre of land is 3014094000 g*acre**-1"}, {"question": "How heavy would a tesla car be if it were entirely built with the latest and lightest material available such as graphene, while maintaining safety standards but ignoring costs?", "program": "PROGRAM:=Q1: How heavy is the current Tesla car?=Q2: What is the ratio of densities of graphene to the material that makes up the Tesla car.=Q3: What is the density of graphene?=Q4: What is the density of the material that makes up the Tesla car?=A1: 2100 kg=A2: 2.2 g*cm**-3=A3: 2.7 g*cm**-3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "1711 kg", "context": "CONTEXT:=F1: The average meal cost in the US is 12 USD.=F2: The density of graphene is 2.2 g/cc=F3: The density of the material that makes up the Tesla car is 2.7 g/cc"}, {"question": "How many bees would have to be on me and flap their wings so that they could carry me away?", "program": "PROGRAM:=Q1: What is the volume of a single human?=Q2: What is the volume of a single bee?=A1: 62000 cm**3=A2: 0.11 cm**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "563636", "context": "CONTEXT:=F1: The volume of single human is 62000 cc=F2: The volume of single bee is 0.11 cc"}, {"question": "How many trees would the average American have to plant to be carbon neutral for their lifetime?", "program": "PROGRAM:=Q1: What is the yearly CO2 emissions per american?=Q2: What is the amount of CO2 taken in by each tree?=A1: 16 tons=A2: 0.05 tons=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "320", "context": "CONTEXT:=F1: Yearly Carbon footprint of an american is 16 tons=F2: The amount of CO2 taken in by a single tree is 0.05 ton (5kg)"}, {"question": "What is the total number of spears and swords surviving today from medieval times?", "program": "PROGRAM:=Q1: How many spheres and swords were there in medieval times?=Q2: What percent of the ancient weapons are still existing currently?=A1: 100000=A2: 0.2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "20000", "context": "CONTEXT:=F1: There were around a 100000 sphere and swords during the medieval times (assumption)=F2: Around 20% of the ancient weapons have been preserved and are still existing right now."}, {"question": "How much force is required to press on a light switch to turn it off?", "program": "PROGRAM:=Q1: How much pressure is exerted on the switch while trying to turn it off?=Q2: What is the size of the impact area of the switch?=A1: 100 N*m**-2=A2: 1e-4 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.01 N", "context": "CONTEXT:=F1: The pressure exerted while trying to turn off the switch is around 100 Pascal=F2: The impact area around the switch is 1e-4 sq. metre"}, {"question": "How long does it take for a bucket of water to get to a room temperature?", "program": "PROGRAM:=Q1: How long does it take to shave a beard completely?=Q2: What is the relation between time taken to shave a beard and time taken for a bucket of water to reach room temperature?=A1: 10 min=A2: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "10 min", "context": "CONTEXT:=F1: It takes around 10 minutes to shave a beard completely.=F2: It takes the same amount of time for the water to reach room temperature as it takes to shave a beard completely. Therefore the time factor is 1:1"}, {"question": "What is the volume of RBCs, in cc, in the blood of an adult male?", "program": "PROGRAM:=Q1: What is the total volume of blood in cc=Q2: What percent of blood is made up by the RBCs?=A1: 5000 cm**3=A2: 0.45=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2250 cm**3", "context": "CONTEXT:=F1: 5000 cc of blood is present in an average adult male.=F2: Around 45% of blood is made up by RBCs"}, {"question": "What fraction of the earth's volume is provided by the oceans?", "program": "PROGRAM:=Q1: What is the total volume of the earth?=Q2: What is the total volume of the ocean cover?=A1: 259875159532 m**3=A2: 300000000 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "0.001", "context": "CONTEXT:=F1: The total volume of the earth is 259875159532 cubic miles=F2: The total volume of the ocean cover is 300000000 cubic miles"}, {"question": "How fast would a baseball have to go to destroy the Earth?", "program": "PROGRAM:=Q1: What is the velocity square at which the baseball is spinning?=Q2: What is the relation between velocity square and velocity?=Q3: What is the total energy required to destroy earth?=Q4: What is the mass of the baseball?=A1: 1/2=A2: 2.5e+32 kg*m**2*s**-2=A3: 0.5 kg=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Pow (Q1, Q2)", "answer": "2.236e+16 m*s**-1", "context": "CONTEXT:=F1: The relation between velocity and velocity square is \u00bd.=F2: The energy required to destroy earth is 2.5e+32 J=F3: The mass of a basketball is 0.5 kg"}, {"question": "How many cows does it take to fill a swimming pool with milk in one single day?", "program": "PROGRAM:=Q1: What is the volume of an Olympic size swimming pool?=Q2: How much milk does a single cow give per day?=A1: 660000 gal=A2: 6.6 gal=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "100000", "context": "CONTEXT:=F1: The volume of an Olympic swimming pool is 660000 gallons=F2: An average cow gives 6.6 gallons of milk per day."}, {"question": "The deficit in the Federal Budget this past year was approximately $100 Billion. Suppose you put these $1 bills in packages of 100 each and gave them away at the rate of 1 package every 10 seconds. If you start now, when will you be finished giving them away?", "program": "PROGRAM:=Q1: What is the total number of packages to be sent out?=Q2: What is the time interval between two packages?=Q3: What is the total amount to be sent out?=Q4: What is the number of bills in a single package?=A1: 100000000000=A2: 10 s=A3: 100=Q4 -> A3 | F3=Q3 -> A1 | F1=Q1 -> Div (Q3, Q4)=Q2 -> A2 | F2=P: Mul (Q1, Q2)", "answer": "1e10 seconds", "context": "CONTEXT:=F1: There are 100 Billion dollars to be sent out=F2: The time interval is 10 seconds=F3: the number of bills in a package is 100"}, {"question": "What mass of neutrinos leave the sun every second?", "program": "PROGRAM:=Q1: How many neutrinos leave the sun every second?=Q2: What is the mass of a single neutrino?=A1: 1e+11=A2: 9e-31 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "9e-20 kg", "context": "CONTEXT:=F1: 1e+11 neutrinos leave the sun every second.=F2: The mass of a single neutrino is 9e-31 kg"}, {"question": "How many bees are needed to pollinate an orchard?", "program": "PROGRAM:=Q1: How much nectar is present in a single orchard roughly?=Q2: How much nectar does a single bee carry?=A1: 2g=A2: 0.1g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "20", "context": "CONTEXT:=F1: A single orchard contains about 2g of nectar.=F2: An average bee can carry about 0.1g of nectar."}, {"question": "How many gallons of blood does a person's heart pump in a lifetime?", "program": "PROGRAM:=Q1: What is the average life expectancy?=Q2: How many gallons of blood is pumped by our heart every year?=Q3: How many days are there in a year?=Q4: How many gallons of blood is pumped by our heart each day?=A1: 72=A2: 365=A3: 2000=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "52560000", "context": "CONTEXT:=F1: The average life expectancy is 72 years=F2: There are 365 days in a year.=F3: 2000 gallons of blood is pumped by our heart every day."}, {"question": "How many grains of rice are there in a 25kg bag?", "program": "PROGRAM:=Q1: What is the mass of the rice bag in total?=Q2: What is the mass of a single grain of rice?=A1: 25kg=A2: 0.0002 kg.=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "125000", "context": "CONTEXT:=F1: The mass of the rice bag in total is 25 kg.=F2: The average mass of a single rice bag is 0.020 gm."}, {"question": "How many loaves of bread would be needed to survive a 50ft fall?", "program": "PROGRAM:=Q1: How many loaves of bread is required to survive a 1 ft fall?=Q2: What is the height at which the person is jumping from?=A1: 1000 ft**-1=A2: 50 ft=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "50000", "context": "CONTEXT:=F1: Around 1000 loaves of bread are required to survive 1ft fall.=F2: The total height at which the person is jumping from is 50 ft."}, {"question": "Approximately what size area in solar power arrays would be required for enough power to run the Golden Knights arena in Las Vegas Nevada, during a hypothetical mid-June playoff run?", "program": "PROGRAM:=Q1: What is the total power consumed by the Golden Knights arena in a hypothetical mid-June playoff run?=Q2: How much power does a square foot of solar panel produce?=A1: 10e+8 W=A2: 10 W*ft**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1e+8 ft**2", "context": "CONTEXT:=F1: The total power consumed by the Golden Knights arena in a hypothetical mid-June playoff run is 10e+8 W=F2: The power generated by a square foot of solar panels is 10 W/ft**2"}, {"question": "What is the total world biomass of each insect order such as ants, bees, beetles, flies, spiders, termites, worms, and so on?", "program": "PROGRAM:=Q1: What is the total biomass of an average insect?=Q2: How many kinds of insects are there in the world?=A1: 1000 ton=A2: 900000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "9e+8 tons", "context": "CONTEXT:=F1: The total biomass of an average insect type is 1000 tons=F2: There are around 900000 types of insects in the world."}, {"question": "How many pounds of onions were eaten in the U.S. in 2000?", "program": "PROGRAM:=Q1: What is the total food consumption of the US in 2000?=Q2: What percent of every food item contains onions in them?=A1: 1.7e+11 pounds=A2: 0.1=Q2 -> A2 | F2=Q1 -> A1| F1=P: Mul (Q1, Q2)", "answer": "17000000000 pounds", "context": "CONTEXT:=F1: The total food consumption of the US in 2000 is 1.7e+11 pounds.=F2: 10 percent of every food item is made of onions."}, {"question": "How much milk is produced in the United States each year?", "program": "PROGRAM:=Q1: What is the total number of dairy animals present in the US?=Q2: What is the average milk extracted from a dairy animal over a year?=A1: 9000000=A2: 10600 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "95400000000 kg", "context": "CONTEXT:=F1: The total number of dairy animals present in the US is 9000000=F2: The average milk extracted from a dairy animal over a year is 10600 kg"}, {"question": "For a freshly mowed lawn, estimate the mass, g, of the grass above ground.", "program": "PROGRAM:=Q1: What is the total number of blades of grass on a freshly mowed lawn?=Q2: What is the average mass of a single blade of grass?=Q3: What is the average size of a lawn?=Q4: How many blades of grass are there on a single ft**2 of a lawn?=A1: 1e-5 kg=A2: 200 ft**2=A3: 3000 ft**-2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "6 kg", "context": "CONTEXT:=F1: The weight of a blade of grass is 1e-5 kg=F2: The average size of a freshly mowed lawn is 200 ft**2=F3: There are 3000 blades of grass in a single ft**2 of a lawn."}, {"question": "How many water molecules are in the oceans?", "program": "PROGRAM:=Q4: What is the mass of a single water molecule?=Q3: What is the total mass, kgm, of the oceans?=Q1: What is the density of a water molecule?=Q2: What is the total volume of water present in the oceans?=A1: 4.156e+12 kg*mile**-3=A2: 320000000 mile**3=A3: 2.988e-26 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul(Q1, Q2)=Q4 -> A3 | F3=P: Div(Q3, Q4)", "answer": "4.45E+46", "context": "CONTEXT:=F1: The density of a single water molecule is 4.156e+12 kg/cubic mile=F2: The total volume of water molecules is 32000000 cubic miles=F3: The mass of single water molecule is 2.988e-26 kg"}, {"question": "How many hours from one full moon to the next?", "program": "PROGRAM:=Q1: What is the time interval between two successive full moons?=Q2: What is the number of hours in a day?=A1: 30=A2: 24 hours=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "720 hours", "context": "CONTEXT:=F1: The time interval between two full moons is 30 days=F2: There are 24 hours in a day."}, {"question": "How much Earth could I have if it was divided fairly amongst all organisms?", "program": "PROGRAM:=Q1: What is the total surface area of earth?=Q2: What is the count of total living organisms on earth?=A1: 510e+6 km**2=A2: 500e+12=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.02e-6 km**2", "context": "CONTEXT:=F1: The total surface area on Earth is 510e+6 sq. km=F2: The total living organisms in the world right now is 500e+12"}, {"question": "How many pizza boxes would we need to cover the classroom floor?", "program": "PROGRAM:=Q1: What is the surface area of a classroom?=Q2: What is the surface area of a pizza box?=A1: 960 ft**2=A2: 1.17 ft**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q1, Q2)", "answer": "820", "context": "CONTEXT:=F1: The surface area of an average classroom is 960 sq ft=F2: The surface area of a pizza box is 1.17 sq ft"}, {"question": "How many new telephone numbers became available when the three digit area code system was installed?", "program": "PROGRAM:=Q1: How many times more combinations are possible with the new three digit area code?=Q2: How many combinations were possible with the old 7 digit phone number?=Q3: How many combinations are possible with the three additional digits.=A1: 1000=A2: 1e+7=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul (Q2, Q1)=P: Sub(Q3, Q2)", "answer": "9.99E+09", "context": "CONTEXT:=F1: The new combinations possible with the three digit code are 1000.=F2: The number of original combinations before were 1e+7"}, {"question": "How many people would fit shoulder to shoulder in the corridor outside our class?", "program": "PROGRAM:=Q1: What is the average length of a corridor in a school?=Q2: What is the average width of a person's shoulder to shoulder area?=Q3: What is the radius of the sweet considering it is a sphere?=Q4: What is the coefficient of radius cube in the volume formula?=A1: 200 ft.=A2: 1.23 ft.=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "162", "context": "CONTEXT:=F1: The average length of a school corridor is 200 ft=F2: The average between one person's shoulder to shoulder is 1.23 ft."}, {"question": "How big a block of chocolate could you make using all the chocolate eaten by the class in a year?", "program": "PROGRAM:=Q7: What is the volume of an average chocolate?=Q8: What is the total chocolate consumption in a year?=Q1: How many months are there in a year?=Q2: What is the total chocolate consumption by the class in a month?=Q3: What is the frequency of eating chocolates by the class students in a month?=Q4: What is the total chocolate consumption on a single day by the entire class?=Q5: What is the average class size?=Q6: What is the average capacity of a student?=A1: 12=A2: 15=A3: 21=A4: 2=A5: 73 cm**3=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=Q8 -> Mul (Q1, Q2)=Q7 -> A5 | F5=P: Mul (Q7, Q8)", "answer": "551880 cm**3", "context": "CONTEXT:=F1: There are 12 months in a year.=F2: The frequency of ordering chocolates is 15 times a month.=F3: The average size of the class is 21.=F4: The average capacity of a student is 2 chocolates per consumption=F5: The average volume of a chocolate bar is 73 cubic cm"}, {"question": "What fraction of the earth's water is equal to the water in an adult male human?", "program": "PROGRAM:=Q1: What is total water present in an average human?=Q2: What is the total water present on earth?=A1: 3.7e-11 km**3=A2: 1.38e+9 km**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.60E-20", "context": "CONTEXT:=F1: The total water present in an average human is 3.7e-11 km**3=F2: The total water present on earth is 1.38e+9 km**3"}, {"question": "How much would a Subway employee make per year if every customer tipped $1?", "program": "PROGRAM:=Q1: What is the tip given by the customer?=Q2: How many does a single Subway employee serve in a year?=Q3: How many customers does a Subway employee cater to every day?=Q4: How many working days are there in a year?=A1: $1=A2: 150=A3: 260=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$39000", "context": "CONTEXT:=F1: Each customer leaves a tip of 1 USD.=F2: A single Subway employee caters to around 150 customers a day.=F3: There are 260 days in a year."}, {"question": "What is the ratio of the length of a 6 foot pipe that encompasses the Earth's oceans to the distance from the Earth to the Sun?", "program": "PROGRAM:=Q7: What is the distance from the earth to sun in miles?=Q6: If a 6 foot diameter pipe were built to contain all the ocean water, how many miles long would the pipe have to be?=Q1: What is the total volume of water in the oceans?=Q2: What is the surface area of the pipe?=Q3: What is the diameter of the pipe?=Q4: What is the relationship between diameter and surface area of the pipe?=Q5: What is the square of the diameter?=A1: 321000000 miles**3=A2: 0.001 miles=A3: 0.75=A4: 93000000 miles=Q3 -> A2 | F2=Q5 -> Pow (Q3, 2)=Q4 -> A3 | F3=Q2 -> Mul (Q5, Q4)=Q1 -> A1 | F1=Q6 -> Div(Q1, Q2)=Q7 -> A4 | F4=P: Div (Q6, Q7)", "answer": "4602150", "context": "CONTEXT:=F1: The total volume of water in the oceans is 321000000 cubic miles=F2: The diameter of the pipe is 0.001 miles=F3: The surface area of the pipe is 0.75 times the diameter square.=F4: The distance from earth to sun in miles is 93000000 miles"}, {"question": "How long (meters) is the shoreline of the North American continent?", "program": "PROGRAM:=Q1: How many countries lie along the coastline of North America that are significantly long?=Q2: What is the average length of coastline of countries?=A1: 4=A2: 17213 km=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "68852 km", "context": "CONTEXT:=F1: The number of countries contributing majorly to the coastline of North America are 4.=F2: The average coastline of these countries is 17213 km"}, {"question": "How much food has an average 30 year old American eaten?", "program": "PROGRAM:=Q1: How much food does an average American eat each year?=Q2: For how many years has the 30 year old been eating food?=A1: 1996 lb=A2: 30=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "59880 lb", "context": "CONTEXT:=F1: An average American eats around 1996 pounds of food each year.=F2: The person mentioned has been eating food for the past 30 years."}, {"question": "At what percentage would an alcoholic drink dehydrate you rather than hydrate?", "program": "PROGRAM:=A1: 0.02=P: A1 | F1", "answer": "0.02", "context": "CONTEXT:=F1: Anything greater than 2% ABV would cause a dehydrating affect than hydrating affect."}, {"question": "If you played your favorite song continuously for a whole year, how many times would it play?", "program": "PROGRAM:=Q1: What is the duration of your favorite song?=Q2: What is the duration of a year in minutes?=Q3: How many minutes are there in a day?=Q4: How many days are there in a year?=A1: 3=A2: 365=A3: 1440=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "175200", "context": "CONTEXT:=F1: The duration of my favorite song is 3 minutes.=F2: There are 365 days in a year.=F3: There are 1440 minutes in a day."}, {"question": "How much would it cost to fill a swimming pool with Jell-O?", "program": "PROGRAM:=Q1: How many Jell-Os can fit in a swimming pool?=Q2: What is the cost of single Jell-O?=Q3: What is the volume of an average swimming pool?=Q4: What is the volume of a single Jell-O?=A1: $0.2=A2: 2500000000 cm**3=A3: 88 cm**3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$5681818", "context": "CONTEXT:=F1: The cost of a single Jell-O is 0.2 USD=F2: The volume of an average swimming pool is 2500000000 cubic cm=F3: The volume of a single Jell-O is 88 cubic cm"}, {"question": "If all the people in Australia joined hands and stretched themselves out in a straight line, how long would it reach?", "program": "PROGRAM:=Q1: What is the total population of Australia?=Q2: What is the average arm span of humans?=A1: 25400000=A2: 1.8 m=Q1 -> A2 | F2=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "45720000 meters", "context": "CONTEXT:=F1: The population of Australia is 25400000=F2: The average arm span of a human is 1.8 m"}, {"question": "How much smokeable marijuana is in the world?", "program": "PROGRAM:=Q1: What is the total amount of marijuana present in the world?=Q2: What percent of all the marijuana available is safe to smoke=A1: 40e+6 pounds=A2: 0.4=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "16e+6 pounds", "context": "CONTEXT:=F1: The total amount of marijuana present in the world is 40e+6 lb (estimate)=F2: Around 40% of the total marijuana production is smokable. (assumption)"}, {"question": "5 lbs of rice, if completely oxidized, yields how many grams of water?", "program": "PROGRAM:=Q1: How many grams of water does 1 lb of rice oxidize?=Q2: What is the total quantity of rice given?=A1: 453 g*lb**-1=A2: 5 lb=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2265 g", "context": "CONTEXT:=F1: A single lb of rice oxidises 453 grams of water.=F2: The total quantity of rice given is 5 lb."}, {"question": "How much water is wasted by a leaky faucet in one day?", "program": "PROGRAM:=Q1: How many hours are there in a day?=Q6: How much is the water wasted by the faucet for 1 hour?=Q2: How many minutes are there in an hour?=Q3: How much is the water wasted by the faucet for 1 minute?=Q4: How many seconds are there in a minute?=Q5: How much water is wasted every second by the faucet?=A1: 24=A2: 60=A3: 60=A4: 0.05 mL=Q5 -> A4 | F4=Q4 -> A3 | F3=Q3 -> Mul (Q4, Q5)=Q2 -> A2 | F2=Q6 -> Mul (Q2, Q3)=Q1 -> A1 | F1=P: Mul (Q1, Q6)", "answer": "4.32 L", "context": "CONTEXT:=F1: There are 24 hours in a day.=F2: There are 60 minutes in an hour.=F3: There are 60 seconds in a minute.=F4: Each second, a droplet is leaked from the faucet causing a wastage of 0.05 mL per second."}, {"question": "How much energy would be saved at our school each year if the lights were replaced by energy-efficient alternatives?", "program": "PROGRAM:=Q1: How much energy do the energy-efficient alternatives consume when compared to normal ones?=Q2: What is the average energy produced in a school over the year?=A1: 0.35=A2: 245 kWh*m**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "86 kWh*m**-2", "context": "CONTEXT:=F1: The energy efficient alternatives save 35% more energy than the traditional ones.=F2: The average energy generated by school annually is 245 ekWh/sq m"}, {"question": "How many cells are needed to visible to a person?", "program": "PROGRAM:=Q1: What is the minimum size of an object that falls under the visible range of a human?=Q2: What is the normal size of a cell?=A1: 1e-4 m=A2: 1e-6 m=Q2 -> A2| F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "100", "context": "CONTEXT:=F1: The minimum size visible to a human is 1e-4 m=F2: The normal size of a cell is 1e-6 m"}, {"question": "5 lbs of rice yields how many cc of cooked rice?", "program": "PROGRAM:=Q1: What is the expansion rate of rice?=Q2: What is the value of 5lbs in cc?=Q3: What is the value of rice in pounds?=Q4: What is the conversion rate from lb to cc?=A1: 3=A2: 5 lb=A3: 0.002 lb*cm**-3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "7500 cm**3", "context": "CONTEXT:=F1: The expansion ratio of cooked rice to uncooked rice is 3=F2: The mass of rice in pounds is 5.=F3: 0.002 pounds equal one cc."}, {"question": "How much power could a hydroelectric power station in a gutter generate?", "program": "PROGRAM:=Q1: Roughly, how much water is present in a gutter?=Q2: How much power is generated by a L of water?=A1: 50 L=A2: 26315 Wh*L**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1315750 Wh", "context": "CONTEXT:=F1: A single gutter contains about 50 L of water.=F2: 26315 Wh of power is generated by a L of water."}, {"question": "What percentage of all the words in the English language would an audio transcriptionist who worked 40 hours a week for 4 years have typed?", "program": "PROGRAM:=Q1: What is the number of words the transcriptionist might have typed in 4 years?=Q2: How many words are there in English?=Q3: How many words did the writer write in a year?=Q4: How many years did the writer write for?=Q5: How many hours a week did the writer work?=Q6: How many weeks are there in a year?=Q7: How many words did the writer write in an hour?=Q8: How many hours did the writer work?=Q9: What fraction of English words was the writer able to cover over the 4 years?=Q10: What is the numerical coefficent for converting the fraction to percentage?=A1: 179476=A2: 4=A3: 52=A4: 15=A5: 40=A6: 100=Q8 -> A5 | F5=Q7 -> A4 | F4=Q5 -> Mul (Q7, Q8)=Q6 -> A3 | F3=Q3 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=Q9 -> Div (Q1, Q2)=Q10 -> A6 | F6=P: Mul (Q9, Q10)", "answer": "69.5", "context": "CONTEXT:=F1: There are 179476 words in english language.=F2: The writer wrote for 4 years.=F3: There are 52 weeks in a year.=F4: The writer wrote about 15 words an hour.=F5: The writer wrote for 40 hours a week.=F6: The numerical coefficient for converting the factor to percent is 100"}, {"question": "What would the tax the British imposed on the tea in the US colonies equate to today due to inflation?", "program": "PROGRAM:=Q1: What was the original tax levied on tea?=Q2: How much does a dollar in British regime in the US amount to current day USD?=A1: $0.03 pound**-1=A2: $65=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$1.95 pound**-1", "context": "CONTEXT:=F1: The tax levied on tea by Britishers in US was $0.03/pound=F2: A dollar during British regime is worth 65 USD today."}, {"question": "I want to travel to every country in the world in one trip. How much would it cost?", "program": "PROGRAM:=Q1: What is the average cost of travelling from one country to another?=Q2: How many countries are there in the world?=A1: $25000=A2: 192=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$4800000", "context": "CONTEXT:=F1: The average cost of moving from one country to another is 25000 USD=F2: There are 192 countries in the world."}, {"question": "If a 6 foot diameter pipe were built to contain all the ocean water, how many miles long would the pipe have to be?", "program": "PROGRAM:=Q1: What is the total volume of water in the oceans?=Q2: What is the surface area of the pipe?=Q3: What is the diameter of the pipe?=Q4: What is the relationship between diameter and surface area of the pipe?=Q5: What is the square of the diameter?=A1: 321000000 miles**3=A2: 0.001 miles=A3: 0.75=Q3 -> A2 | F2=Q5 -> Pow (Q3, 2)=Q4 -> A3 | F3=Q2 -> Mul (Q5, Q4)=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "428000000000000 miles", "context": "CONTEXT:=F1: The total volume of water in the oceans is 321000000 cubic miles=F2: The diameter of the pipe is 0.001 miles=F3: The surface area of the pipe is 0.75 times the diameter square."}, {"question": "How many people are afflicted with sickle cell anemia in the United States?", "program": "PROGRAM:=Q1: What is the population of the United States?=Q2: What is the disease to people ratio of sickle cell anemia?=A1: 328200000=A2: 0.00025=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "82050", "context": "CONTEXT:=F1: The population of the United States is 328200000=F2: The disease to people ratio of sickle cell anemia is 0.00025 (1 in every 4000 Americans)"}, {"question": "How much nuclear material is needed for a tiny reactor to power roughly 10 average American homes?", "program": "PROGRAM:=Q1: What is the total power consumed by the 10 american homes?=Q2: How much nuclear material is needed to power a bomb?=Q3: What is the average power consumed by an american home?=Q4: How many homes are given?=A1: 1e-9 kg*Wh**-1=A2: 1e+7 Wh=A3: 10=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.1 kg", "context": "CONTEXT:=F1: 1e-9 kg of nuclear material is required to power a bomb with an impact of 1 Wh.=F2: The average power consumed by an american home is 1e+7 Wh=F3: The number of houses given are 10."}, {"question": "What percentage of plants are used for drugs?", "program": "PROGRAM:=Q1: How many medicinal plants are there in the world?=Q2: How many total plants are there in the world?=Q3: What is the fraction of plants that are medicinal?=A1: 50000=A2: 390900=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=P: Mul (Q3, 100)", "answer": "12.7 %", "context": "CONTEXT:=F1: The total medicinal plants in the world are 50000=F2: The total number of plants in the world are 390900."}, {"question": "How many minutes does the average student play video games per day?", "program": "PROGRAM:=Q1: How many minutes are there in an hour?=Q2: How many hours does an average student play video games per day?=A1: 60=A2: 4=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "240", "context": "CONTEXT:=F1: There are 60 minutes in an hour.=F2: An average student plays video games for a total of 4 hours per day."}, {"question": "How many tons of batteries would be needed to power a car for one year?", "program": "PROGRAM:=Q1: What is the monthly battery intake of a car?=Q2: How many months are there in a year?=A1: 1.8 tons=A2: 12=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "21.6 tons", "context": "CONTEXT:=F1: The monthly battery intake of a car is 1.8 tons.=F2: There are 12 months in a year."}, {"question": "If all the people in the world moved to Wales, how crowded would it be?", "program": "PROGRAM:=Q1: What is the area of Wales?=Q2: What is the total world population?=A1: 20735 km**2=A2: 7670000000 people=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q2, Q1)", "answer": "369905.95 people * km ** -2", "context": "CONTEXT:=F1: The total area of Wales is 20735 sq km.=F2: The total world population is 7670000000"}, {"question": "If you could, how long would it take to drive to the moon?", "program": "PROGRAM:=Q1: What is the distance between Earth and Moon?=Q2: What is the average speed at which a person drives a car?=A1: 384400 km=A2: 30 km/hour=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "12813 hours", "context": "CONTEXT:=F1: The distance between Earth and Moon is 384400 km=F2: The average speed at which a person drives a car is 30 kmph."}, {"question": "If all of the people in the United States move to Colorado, what would be the population density, people per square mile, of that state?", "program": "PROGRAM:=Q1: What is the total population on Earth?=Q2: What is the surface area of Colorado?=A1: 7e+9 person=A2: 104185 mi**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "67188 person * mi ** -2", "context": "CONTEXT:=F1: The population of Earth is 7e+9=F2: The surface area of Colorado is 104185 miles square"}, {"question": "How many hours of tv will you watch in your lifetime?", "program": "PROGRAM:=Q1: What is the total number of hours one spends watching TV in a year?=Q2: What is the average life expectancy?=Q3: How many hours does one watch TV in a day?=Q4: How many days are there in a year?=A1: 72=A2: 3 hour=A3: 365=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "78840 hours", "context": "CONTEXT:=F1: The average life expectancy is 72 years=F2: One watches TV for around 3 hours daily.=F3: There are 365 days in a year."}, {"question": "If everyone in our city donated one day's wages to a good cause, how much money could be raised?", "program": "PROGRAM:=Q1: What is the average daily wage pay in the US?=Q2: What is the average population in a US city?=A1: $180=A2: 10732=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$1931760", "context": "CONTEXT:=F1: The average daily wage pay in the US is 180 USD=F2: The average population in a US city is 10732"}, {"question": "Estimate the mass, kg, of the earth's atmosphere.", "program": "PROGRAM:=Q1: What is the density of air in the atmosphere?=Q2: What is the total volume of the atmosphere?=A1: 1.2 kg*m**-3=A2: 51000000000 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "61200000000 kg", "context": "CONTEXT:=F1: The density of air in the atmosphere is 1.2 kg/cubic metre=F2: The total volume of the atmosphere is 51000000000 metre cube"}, {"question": "How big would an iPhone 6 be if implemented using the technology of ENIAC, the first digital computer?", "program": "PROGRAM:=Q1: What is the size of an iPhone 6?=Q2: What is the ratio of size of ENIAC to the processor in iPhone 6?=Q3: What is the size of ENIAC?=Q4: What is the size of the processor in iPhone ^?=A1: 60 cm**3=A2: 209250 in**2=A3: 0.138 in**2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "90978261 cm**3", "context": "CONTEXT:=F1: The size of an iPhone 6 is 600 cc=F2: The size of ENIAC is 209250 sq.in=F3: The size of processor in iPhone 6 is 0.138 sq. in"}, {"question": "How many grains of sand are there on the beaches surrounding Lake Michigan?", "program": "PROGRAM:=Q1: How many beaches are surrounding Lake Michigan?=Q2: What is the total amount of sand present in a single beach?=Q3: What is the total area of an average beach surrounding Lake Michigan?=Q4: How many grains of sand are present in a sq. ft area?=A1: 15=A2: 1500 m**2=A3: 100000000 m**-2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2250000000000", "context": "CONTEXT:=F1: There are 15 beaches surrounding Lake Michigan=F2: The average area of a beach is 15000 metre square=F3: There is an average of 100000000 grains of sand per meter square"}, {"question": "How many times could a basketball player bounce a ball during her teenage years if she didn't stop to eat, sleep, etc.?", "program": "PROGRAM:=Q1: How many times does a single person bounce a ball in a day?=Q2: How many years are there in teen years?=Q3: How many seconds are there in a year?=Q4: How many seconds does it take for a single bounce of basketball?=Q5: How many seconds are there in a day?=Q6: How many days are there in a year?=A1: 7=A2: 1 s**-1=A3: 86400 s*day**-1=A4: 365 day=Q6 -> A4 | F4=Q5 -> A3 | F3=Q3 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "220752000", "context": "CONTEXT:=F1: There are 7 years in a teen year.=F2: It takes 1 s for one bounce of a basketball.=F3: There are 86400 seconds in a day.=F4: There are 365 days in a year."}, {"question": "How much tire rubber, in lbs, is shed by normal wear and tear of car tires in the USA each year?", "program": "PROGRAM:=Q1: What is the collective drop in weight of tyres of a car in a month?=Q2: How many months are there in a year?=A1: 0.22 lbs=A2: 12=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.64 lbs", "context": "CONTEXT:=F1: The collective drop in weight of a car in a month is 0.22 lbs=F2: There are 12 months in a year."}, {"question": "If all the water vapour and clouds in the atmosphere precipitated or condensed in one place, how large of a body of water would it form?", "program": "PROGRAM:=Q1: How many significantly big clouds are there in the sky?=Q2: What is the water content in these significantly big clouds?=A1: 1000=A2: 1.92e+5 km**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.92e+8 km**3", "context": "CONTEXT:=F1: There are around 1000 significantly big clouds in the sky.=F2: Each significantly big cloud, contains about 192000 km**3 of water in it."}, {"question": "How far does the ball travel in a game of soccer?", "program": "PROGRAM:=Q1: How far does the soccer ball travel on field in a minute?=Q2: How many minutes are there in an average soccer match?=A1: 0.07 miles*min**-1=A2: 90 min=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "6.3 miles", "context": "CONTEXT:=F1: The soccer balls travels an average of 0.07 miles/min=F2: There are 90 minutes in a soccer game."}, {"question": "How many rubber bands would it take to crush a human skull?", "program": "PROGRAM:=Q1: What is the force exerted to crush a human skull?=Q2: What is the average force exerted by releasing a rubber band?=A1: 2300 N=A2: 10 N=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "230", "context": "CONTEXT:=F1: The average force exerted while crushing a human skull is 2300 N=F2: The average force exerted by releasing a rubber band is 10 N"}, {"question": "How many notes are played on a given radio station in a given year?", "program": "PROGRAM:=Q1: How many musical notes are played in a day?=Q2: How many days are there in a year?=Q3: How many kinds of musical notes are present in a song?=Q4: What is the average number of songs played daily?=A1: 365 days=A2: 7=A3: 300 day**-1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul(Q3, Q4)=Q2 -> A1|F1=P: Mul(Q1, Q2)", "answer": "766500", "context": "CONTEXT:=F1: There are 365 days in a year=F2: There are 7 different types of musical notes in any song=F3: 300 songs are played on an average daily by a music station"}, {"question": "The owner collects and dries the grass clippings. In the course of a six month growing season, what is the total mass, g, of the dried clippings?", "program": "PROGRAM:=Q5: How many weeks are there in the 6 months period?=Q6: What is the mass of grass collected each week?=Q1: What is the total number of blades collected in the week after cutting them?=Q2: What is the average mass of a single blade of grass?=Q3: What is the average size of a lawn?=Q4: How many blades of grass are there on a single ft**2 of a lawn?=A1: 0.01 g=A2: 200 ft**2=A3: 3000 ft**-2=A4: 24=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=Q6 -> Mul (Q1, Q2)=Q5 -> A4 | F4=P: Mul (Q5, Q6)", "answer": "144000 g", "context": "CONTEXT:=F1: The weight of a blade of grass is 0.01 g=F2: The average size of a freshly mowed lawn is 200 ft**2=F3: There are 3000 blades of grass in a single ft**2 of a lawn.=F4: There are 24 weeks in the 6 months period."}, {"question": "How many leaves in Central Park?", "program": "PROGRAM:=Q1: How many trees are there in the central park?=Q2: What is the average number of leaves on a single tree?=A1: 18000=A2: 50000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "9.00E+08", "context": "CONTEXT:=F1: There are roughly 18000 trees in Central Park.=F2: The average number of leaves on a single tree is 50000"}, {"question": "Estimate the angular momentum an automobile tire has about its axis of rotation while the car is driving on the interstate.", "program": "PROGRAM:=Q1: What is the mass of the tyre?=Q2: What is the product of radius and velocity of the tyre?=Q3: What is the radius of the tyre?=Q4: What is the velocity at which the tyre is moving?=A1: 20 kg=A2: 0.3 m=A3: 5 m/s=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "30 kg*m**2*s**-1", "context": "CONTEXT:=F1: The mass of the tyre is 20 kg=F2: The radius of the tyre is 0.3m=F3: The velocity at which the tyre is moving is 5 m/s"}, {"question": "How many stickers does it take to cover a notebook?", "program": "PROGRAM:=Q1: What is the surface area of the cover page of the notebook=Q2: What is the surface area of a single cracker?=A1: 1 m**2=A2: 0.00125 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "800", "context": "CONTEXT:=F1: The surface area of the cover page of the notebook is 1 sq. metre.=F2: The surface area of a single sticker is 0.00125 sq. metre"}, {"question": "If the Earth's average daily rainfall fell on Colorado, how many inches of rain precipitated?", "program": "PROGRAM:=Q1: What is the quantity of earth's average rainfall?=Q2: How many inches of rain get precipitated per liter of rainfall on earth?=A1: 300e+6 L=A2: 0.5 in*L**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "150e+6 in", "context": "CONTEXT:=F1: The quantity of average daily rainfall is 300e+6 L=F2: 0.5 in of rain gets precipitated per liter of rainfall on earth."}, {"question": "How high a column, in cm, would the RBCs in the blood of an adult male form, if stacked like a bunch of poker chips?", "program": "PROGRAM:=Q1: What is the thickness of a single RBC?=Q2: How many RBCs are there in the human body?=A1: 2e-12 cm=A2: 25000000000000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "50 cm", "context": "CONTEXT:=F1: The thickness of a single RBC is 2e-12 cm=F2: 1 cubic centimeter makes up 1 cc"}, {"question": "How many pennies are needed to equal the height of Mt. Everest?", "program": "PROGRAM:=Q1: What is the height of Mt. Everest?=Q2: What is the thickness of a penny?=A1: 8849 m=A2: 0.0015 m=Q2 -> A2|F2=Q1 -> A1|F1=P: Div(Q1, Q2)", "answer": "5898666", "context": "CONTEXT:=F1: The height to be matched is 8849 meters=F2: The thickness of a penny is 0.0015 metes"}, {"question": "How much gasoline does a typical automobile use during its lifetime?", "program": "PROGRAM:=Q1: What is the average lifetime of an automobile?=Q2: How much gasoline does a typical automobile consume in a year?=A1: 8=A2: 2400 L=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "19200 L", "context": "CONTEXT:=F1: The average life-time of an automobile is 8 years=F2: A typical automobile consumes 2400 litres of gasoline each year."}, {"question": "How much energy does it take to produce a flat-screen TV?", "program": "PROGRAM:=Q1: What is the average cost of the entire raw materials required to build a flat screen TV in terms of energy?=Q2: What is the average production cost of a flat screen TV in terms of energy?=A1: 100 J=A2: 150 J=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Add (Q1, Q2)", "answer": "250 J", "context": "CONTEXT:=F1: The average cost of procuring raw materials in terms of energy is 100 J.=F2: The average production cost of building a flat screen TV in terms of energy is 150 J"}, {"question": "Suppose the Army Corps of Engineers decided to put a dam across the Potomac River in order to provide power for the Washington area. Assume the dam was built to hold back the water into a lake to a height of 15 m behind the dam. Estimate the total force the water would exert on the dam.", "program": "PROGRAM:=Q1: What is the length of the dam?=Q2: What is the product of density, square of the height of the dam, water and acceleration due to gravity?=Q3: What is the density of water?=Q4: What is the product of square of the height of the dam and acceleration due to gravity?=Q5: What is the square height of the dam?=Q6: What is the accelaration due to gravity of the dam?=Q7: What is the height of the dam?=Q8: What is the numerical coefficient for computing square of a number?=A1: 50 meters=A2: 1000 kg*meters**-3=A3: 10 meters*s**-2=A4: 15 meters=A5: 2=Q8 -> A5 | F5=Q7 -> A4 | F4=Q5 -> Pow (Q7, Q8)=Q6 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.12e+8 kg*meter*s**-2", "context": "CONTEXT:=F1: The length of the dam is 50 m.The height of the dam is 15 m=F2: The density of water is 1000kg/m**3=F3: The acceleration due to gravity is 10 m/s**2=F4: The height of the dam is 15 m=F5: numerical coefficient for computing square of a number is 2"}, {"question": "What is the minimum surface area of a 2 dimensional sheet that would still cause a solar eclipse?", "program": "PROGRAM:=Q1: What is the total surface area of the moon?=Q2: What part of the moon is involved in the solar eclipse phenomenon?=A1: 38e+6 km**2=A2: 1/2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "18e+6 km**2", "context": "CONTEXT:=F1: Total surface area of the moon is 38e+6 km**2=F2: \u00bd part of the moon is involved in the solar eclipse phenomenon."}, {"question": "How old are you if you are a million seconds old?", "program": "PROGRAM:=Q1: How many days does a million seconds equal to?=Q2: How many days are there in a year?=Q3: How many hours does a million seconds equal to?=Q4: How many hours are there in a day?=Q5: How many minutes does a million seconds equal to?=Q6: How many minutes are there in an hour?=Q7: How many seconds does a million seconds equate to?=Q8: How many seconds are there in a minute?=A1: 365 days/year=A2: 24 hours/day=A3: 60 minutes/hour=A4: 60 seconds/minutes=A5: 1000000 seconds=Q8 -> A4 | F4=Q7 -> A5 | F5=Q5 -> Div(Q7,Q8)=Q6 -> A3 | F3=Q3 -> Div(Q5,Q6)=Q4 -> A2 | F2=Q1 -> Div(Q3, Q4)=Q2 -> A1 | F1=P: Div(Q1, Q2)", "answer": "0.031 years", "context": "CONTEXT:=F1: There are 365 days in a year.=F2: There are 24 hours in a day.=F3: There are 60 minutes in an hour.=F4: There are 60 seconds in a minute=F5: There are 1000000 seconds in a million seconds"}, {"question": "How many cents per mile does it take to drive your car?", "program": "PROGRAM:=Q1: How much does it cost for a car to drive upto a mile?=Q2: How many cents are there in a dollar?=A1: 0.35 mi**-1=A2: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "35 mi**-1", "context": "CONTEXT:=F1: It takes 0.35 USD for a car to drive upto a mile.=F2: There are 100 cents in a dollar."}, {"question": "How many trees need to be cut to print newspapers everyday?", "program": "PROGRAM:=Q1: How many tonnes of newspaper are produced each day?=Q2: How many trees are to be cut to produce a ton of newspaper?=A1: 120000=A2: 18=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2160000", "context": "CONTEXT:=F1: 120000 tonnes of newspaper are produced each day.=F2: 18 trees are to be cut to produce a tonne of news paper."}, {"question": "How old are you if you are a million hours old?", "program": "PROGRAM:=Q1: How many days does a million hours equal to?=Q2: How many days are there in a year?=Q3: How many hours does a million hours equal to?=Q4: How many hours are there in a day?=A1: 365 days/year=A2: 24 hours/day=A3: 1000000 hours=Q3 -> A3 | F3=Q4 -> A2 | F2=Q1 -> Div(Q3, Q4)=Q2 -> A1 | F1=P: Div(Q1, Q2)", "answer": "114 years", "context": "CONTEXT:=F1: There are 365 days in a year.=F2: There are 24 hours in a day.=F3: There are a 1000000 hours in a million hours."}, {"question": "How many plastic straws are used every day accross the world?", "program": "PROGRAM:=Q1: How many cafes and restaurants are there in the world?=Q2: How many beverages are sold on an average daily in a restaurant?=A1: 15e+6=A2: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.50E+09", "context": "CONTEXT:=F1: There are around 15e+6 restaurants and cafes combined in the world.=F2: An average of 100 beverages are sold each day in a restaurant/cafe."}, {"question": "How long is a truck?", "program": "PROGRAM:=Q1: What is the average length of a car?=Q2: How many cars equivalent is the length of the truck?=A1: 16 ft=A2: 4=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "64 ft", "context": "CONTEXT:=F1: The length of an average car is around 16 feet=F2: Around 4 cars make up for the length of the truck."}, {"question": "Would it have been possible for a seismometer to pick up the vibrations caused by a walking Diplodocus?", "program": "PROGRAM:=Q1: What is the minimum vibrations of an earthquake detected by the seismometer?=Q2: What are the vibrations produced by the walking of a Diplodocus?=A1: 2 hertz=A2: 48 hertz=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q2, Q1)", "answer": "46 hertz", "context": "CONTEXT:=F1: The minimum vibrations of an earthquake detected by a seismometer are 2 Hz=F2: The vibrations produced by the walking of a Diplodocus is 48 Hz."}, {"question": "How many grains of rice are in a 10kg bag?", "program": "PROGRAM:=Q1: What is the mass of the rice bag in total?=Q2: What is the mass of a single grain of rice?=A1: 10 kg=A2: 0.0002 kg.=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "50000", "context": "CONTEXT:=F1: The mass of the rice bag in total is 10 kg.=F2: The average mass of a single rice bag is 0.020 gm."}, {"question": "How many gallons of gasoline does a car use in its lifetime?", "program": "PROGRAM:=Q1: What is the average lifetime of a car?=Q2: What is the annual fuel consumption of a normal car?=A1: 12 years=A2: 656 gallons*year**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "7872 gal", "context": "CONTEXT:=F1: The average lifetime of a car is 12 years.=F2: The annual fuel consumption of a car is 656 gallons per year."}, {"question": "If all the string was removed from all of the tennis rackets in the US and layed out end-to-end, how many round trips from Detroit to Orlando could be made with the string?", "program": "PROGRAM:=Q1: How many one-way trips can be covered using if the string were laid out?=Q2: What is the distance between Detroit and Orlando?=Q3: What is the distance covered by the strings of all the tennis racquets in the US when laid out?=Q4: How many tennis racquets are there in the US?=Q5: What is the length of the string in a tennis racquet when laid out?=Q6: What is the dividing factor to get round trips from one-way trips=A1: 1870 km=A2: 1e+9=A3: 0.012 km=A4: 2=Q5 -> A3 | F3=Q4 -> A2 | F2=Q3 -> Mul (Q4, Q5)=Q2 -> A1 | F1=Q1 -> Div (Q3, Q2)=Q6 -> A4 | F4=P: Div (Q1, Q6)", "answer": "3208.5", "context": "CONTEXT:=F1: The distance between Detroit and Orlando is 1870 km=F2: There are 1e+9 tennis racquets in the US.=F3: The distance covered by the strings of tennis racquet when laid out is 0.012 km=F4: The dividing factor to get round trips from one way trips is 2."}, {"question": "How much would it cost to build the NYC subway from scratch today?", "program": "PROGRAM:=Q1: What is the ratio of the cost of dollars currently and the dollar rate back when NYC was being built?=Q2: How much did it cost to build the NYC subway?=A1: 30=A2: $15e+9=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$450000000000", "context": "CONTEXT:=F1: The ratio of the cost of dollars currently and the dollar rate back when NYC was being built is 30.=F2: The total cost in building the initial NYC Subway turned out to be 15e+9 dollars"}, {"question": "How many seeds does a dandelion have?", "program": "PROGRAM:=Q1: How many flowers does a dandelion have?=Q2: How many seeds are produced by a single dandelion flower?=A1: 10=A2: 150=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1500", "context": "CONTEXT:=F1: An average dandelion has about 10 flowers.=F2: An average flower produces about 150 seeds."}, {"question": "How many fewer people would have solar panels if there were no subsidies for installing it?", "program": "PROGRAM:=Q1: What fraction of people buy solar panels for sustainability and not for subsidies?=Q2: How many people buy solar panels each year?=A1: 0.5=A2: 2e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.00E+06", "context": "CONTEXT:=F1: Around 0.5 of the total people buy the panels for subsidy benefits.=F2: Around 2e+6 people go solar each year."}, {"question": "How many people would it take to surround our school if they held hands?", "program": "PROGRAM:=Q1: What is the perimeter of the school?=Q2: What is the length between both hands when holding two different people on both sides?=A1: 300m=A2: 0.6m=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "500", "context": "CONTEXT:=F1: The perimeter of a school is 300m=F2: The average length between both hands when holding two different people on both sides is 0.6m"}, {"question": "What are the approximate values of Force acting on a stretched string in a guitar?", "program": "PROGRAM:=Q1: What is the mass coefficient of a string in the guitar?=Q2: What is the square of the velocity of the wave that travels across the string?=Q3: What is the velocity of the wave that travels across the string?=A1: 2.5e-5 kg*m**-1=A2: 405 m*s**-1=Q3 -> A2 | F2=Q2 -> Pow (Q3, 2)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4.1 N", "context": "CONTEXT:=F1: The mass coefficient of the string of the guitar is 2.5e-5 kg/m=F2: The velocity of the wave that travels across the string is 405 m/s"}, {"question": "How many more RBCs does an adult male have than an adult woman?", "program": "PROGRAM:=Q1: How many RBCs are there in a male body?=Q2: How many RBCs are there in a female body?=A1: 5.4 L**-1=A2: 4.8 L**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "0.6 L**-1", "context": "CONTEXT:=F1: The number of RBCs in a male body is 5400000 cells per microliter=F2: The number of RBCs in a female body is 4800000 cells per microliter"}, {"question": "How much can a single diatom intakes CO2 in a 6 day life span?", "program": "PROGRAM:=Q1: What is the daily intake of CO2 of a diatom?=Q2: What is the given lifespan of the diatom?=A1: 0.13 pounds=A2: 6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.78 pounds", "context": "CONTEXT:=F1: The daily CO2 intake of diatom is 0.13 pounds.=F2: The given lifespan of the diatom is 6 days."}, {"question": "How far could you theoretically travel back in time before you could no longer find a genetically compatible human to breed with because of differences caused by evolution?", "program": "PROGRAM:=Q1: What is the current year?=Q2: In which year does the last genetically compatible human w.r.t the current generation resides in?=A1: 2021=A2: -5979=Q2 -> A2 | F2=Q1 -> A1 | F2=P: Sub (Q1, Q2)", "answer": "8000", "context": "CONTEXT:=F1: The current year is 2021.=F2: The last genetically computable human goes all the way back to the one's life during Harappa and MohenjodarO, the first human civilisation [assumption] which was 6000 BC"}, {"question": "What do you estimate the total weight of all the Covid-19 viruses in the world?", "program": "PROGRAM:=Q1: What is the mass of the corona virus in a patient's body?=Q2: How many people in total are down with Coronavirus right now?=A1: 50e-6 g=A2: 1.58e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "79 g", "context": "CONTEXT:=F1: The mass of the corona virus in a patient's body is 50e-6 grams=F2: The total number of people associated with CoronaVirus right now are 1.58e+6"}, {"question": "How many people could you fit into a classroom?", "program": "PROGRAM:=Q1: What is the average area of a classroom?=Q2: How much floor space does an average human occupy while he/she is standing?=A1: 960 ft**2=A2: 3 ft**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "320", "context": "CONTEXT:=F1: The average classroom size in the US is 960 sq. ft=F2: An average person occupies 3 sq. ft while standing given"}, {"question": "How much file space would be required to house every Disney production in standard definition?", "program": "PROGRAM:=Q1: How many movies have disney produced till now?=Q2: What is average file space for a standard definition video?=A1: 59=A2: 0.7 GB=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "41.3 GB", "context": "CONTEXT:=F1: Disney has produced 59 films till now.=F2: The average file space for a standard definition video is 0.7 GB"}, {"question": "Take your typical large football/soccer sized stadium and add levels until you can fit everyone on the planet... how big is this stadium?", "program": "PROGRAM:=Q1: What is the total population on earth?=Q2: How many people fit in one floor of an average sized football stadium?=A1: 7.2e+9=A2: 20000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "360000", "context": "CONTEXT:=F1: The total human population is 7.2e+9.=F2: Around 20000 people fit in one level of a football stadium."}, {"question": "How much domestic trash is produced in the U.S per year?", "program": "PROGRAM:=Q1: How much domestic trash is produced per household every year in the US?=Q2:How many households are there in the US?=A1: 2877 kg=A2: 128e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3.6e+11 kg", "context": "CONTEXT:=F1: An average US household produces 2877 kgs of garbage every year.=F2: There are 128e+6 households in the US."}, {"question": "How many trees does one need to grow in their backyard to balance the carbon footprint caused by the average usage of an Air Conditioner?", "program": "PROGRAM:=Q1: What is the carbon footprint caused by an AC over a year?=Q2: How many trees are to be planted for 1 ton of CO2?=A1: 1.368=A2: 6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "8", "context": "CONTEXT:=F1: The carbon footprint of an AC in a year is 1.368 tons=F2: 6 trees are to be planted for 1 ton of CO2."}, {"question": "Moving 200 feet per minute, how long would it take to get from Earth to Mars?", "program": "PROGRAM:=Q1: What is the distance between earth and mars?=Q2: What is the speed at which one is moving?=A1: 1.8e+11 ft=A2: 200 ft*min**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "9e+8 min", "context": "CONTEXT:=F1: The distance between earth and moon is 1.8e+11 ft=F2: The speed at which one is moving is 200 ft/minute"}, {"question": "How many leaves are on a tree?", "program": "PROGRAM:=Q1: How much oxygen is produced by a single tree in a year?=Q2: How much oxygen is produced by a single leaf in a year=A1: 48 pounds=A2: 0.00048 pounds=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q1, Q2)", "answer": "100000", "context": "CONTEXT:=F1: The oxygen is produced by a single tree in a year is 48 pounds=F2: The oxygen is produced by a single leaf in a year is 0.219 gm ( 0.00048 pounds)"}, {"question": "What is the kinetic energy of a truck driving on a highway?", "program": "PROGRAM:=Q1: What is the half of the mass of the truck?=Q2: What is the velocity square of the truck?=Q3: What is the velocity of the truck?=Q4: What is the mass of the truck?=A1: 3000 kg=A2: 27 m*s**-1=Q3 -> A2 | F2=Q2 -> Pow (Q3, 2)=Q4 -> A1 | F1=Q1 -> Div (Q4, 2)=P: Mul (Q1, Q2)", "answer": "1093500 J", "context": "CONTEXT:=F1: The mass of the truck is 3000 kg=F2: The velocity of a truck is 27 m/s"}, {"question": "What is the total number of hairs on your head?", "program": "PROGRAM:=Q1: What is the total surface area of your head?=Q2: How many hairs does our head have on an area of a square inch?=A1: 78.5 in**2=A2: 1400 in**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "109900", "context": "CONTEXT:=F1: Considering our head to be a half sphere with radius 2.5, the surface area is 78.5 sq. inch=F2: The average number of hairs on a sq. inch covered area is 1400"}, {"question": "If fluoride in water is 4 parts per million how much of an 8 oz glass of water would be fluoride atoms?", "program": "PROGRAM:=Q1: How many water atoms are there in 8 oz glass of water?=Q2: How many fluoride atoms are present in one part of fluoride?=Q3: How many atoms are present in an oz of water?=Q4: How many oz of water do we have?=Q5: What is the total volume of water used to compare the concentration here?=Q6: How many flouride atoms are present in the given volume of water?=A1: 0.000008=A2: 9.3e+23 oz**-1=A3: 8 oz=A4: 1e+6=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=Q6 -> Mul (Q1, Q2)=Q5 -> A4 | F4=P: Div (Q6, Q5)", "answer": "5.95E+13", "context": "CONTEXT:=F1: There are 2 fluorine atoms in a part of fluoride.=F2: 9.3e+23 atoms are present in a single oz of water molecule.=F3: There are 8 oz of water given.=F4: The total size is in terms of ppm."}, {"question": "How many A4 sheets does it take to make a paper chain long enough to go down the main hallway at school?", "program": "PROGRAM:=Q1: What is the length of the main hallway in the school?=Q2: What is the length of an A4 size paper?=A1: 15 ft=A2: 0.975 ft=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "15.4", "context": "CONTEXT:=F1: The length of main hallway in the school is 150 ft=F2: The length of an A4 size paper is 0.975 ft."}, {"question": "How many blades of grass are there on a football pitch?", "program": "PROGRAM:=Q1: What is the total area of the football pitch?=Q2: How many blades of grass does an average square foot consist of?=A1: 76854 ft**2.=A2: 3000 ft**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "230562000", "context": "CONTEXT:=F1: The area of a football pitch is 76854 sq foot.=F2: The average square foot has 3000 blades of grass."}, {"question": "What is the average amount of excrement produced per person per day in Africa?", "program": "PROGRAM:=Q1: What is the population of Africa?=Q2: How much does an average person excrete each day in Africa?=A1: 1.2e+9=A2: 400g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4.8e+11 g", "context": "CONTEXT:=F1: The population of Africa is 1.2e+9=F2: An average person excretes 400 grams every day."}, {"question": "How many days worth of video exists in the world currently?", "program": "PROGRAM:=Q1: What is total hours worth of video content present in the world currently?=Q2: How many hours are there in a day?=A1: 10e+9 hours=A2: 24 hours*day**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "416666667 days", "context": "CONTEXT:=F1: The total hours worth of video content available is 10e+9 hours (estimate)=F2: There are 24 hours in a day."}, {"question": "How much energy is spent each second by smartphones being charged?", "program": "PROGRAM:=Q1: How much energy is spent per minute in charging a smartphone?=Q2: How many seconds are there in a minute?=A1: 0.1 Wh=A2: 60=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1e-3 Wh", "context": "CONTEXT:=F1: Approximately 0.1 Wh is used per minute in charging a smartphone.=F2: There are 60 seconds in a minute."}, {"question": "How many books are read by children in our school in one year?", "program": "PROGRAM:=Q1: What is the total number of students in a school?=Q2: How many books are read by a child on an average yearly?=A1: 516=A2: 30=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "15480", "context": "CONTEXT:=F1: The average number of students in a school is 516.=F2: The number of books read by a child annually is 30."}, {"question": "How many high fives has Lebron James given/received?", "program": "PROGRAM:=Q1: How many matches has Lebron James played?=Q2: What is the average number of High-fives that Lebron has been a part of, in a match on an average?=A1: 1308=A2: 200=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "261600", "context": "CONTEXT:=F2: Lebron has played a total of 1308 games till now.=F1: Lebron has been a participant in at least 200 high fives in a single match (considering he only high-fives during a basketball match)"}, {"question": "What percentage of library books in the US were checked out at least once in 2016?", "program": "PROGRAM:=Q1: What is the number of books that were checked out at least once in the US?=Q2: What is the total number of books checked out in the US in 2016?=A1: 1e+7=A2: 8e+8=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.0125", "context": "CONTEXT:=F1: The number of books that were checked out at least once in the US 1e+7 (assumption)=F2: The total number of books checked out in the US in 2016 are 8e+8."}, {"question": "What is the density, g/cc, of the gold atom nucleus?", "program": "PROGRAM:=Q1: What is the number of nucleons, inside's gold's nucleus?=Q2: What is the density of the gold atom?=A1: 197=A2: 19.32 g*cm**-3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3806 g*cm**-3", "context": "CONTEXT:=F1: The number of nucleons present in gold's nucleus is 197=F2: The density of gold atom is 19.32 g/cc"}, {"question": "How many people on earth have a PHD in computer science?", "program": "PROGRAM:=Q1: How many universities offering computer science are there in the world?=Q2: On an average, how many PhDs have these universities awarded since their inception.=A1: 10000=A2: 200=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2000000", "context": "CONTEXT:=F1: There are roughly 10000 universities that offer Computer Science as a degree.=F2: Roughly, each university has awarded 200 students a PhD in Computer Science."}, {"question": "How many cows are there in the United States?", "program": "PROGRAM:=Q1: How many cows are there in the world?=Q2: What fraction of the world's cows reside in the US?=A1: 9.89e+8=A2: 0.1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "9.90E+07", "context": "CONTEXT:=F1: There are 9.89e+8 cows in the world.=F2: 10% of world's cows are in the US"}, {"question": "How long would it take for erosion to erase the existence of the Mars rovers, if we never retrieve them?", "program": "PROGRAM:=Q1: What percent of a rover is damaged due to single erosion on the Mars surface?=Q2: When will the existence of the rover last?=A1: 10 year**-1=A2: 100=Q2 -> A2 | F3=Q1 -> A1 | F1 & F2=P: Div (Q2, Q1)", "answer": "10 years", "context": "CONTEXT:=F1: Around 10% of the rover is damaged due to the erosion on mars surface.=F2: Each year, on an average 1 erosion takes place on mars.=F3: When the percentage of damage hits 100%, the rover will cease to exist."}, {"question": "What percentage of the calories in a student's lunch is spent on swtiching between classes?", "program": "PROGRAM:=Q1: How many calories are burnt when switching classes?=Q2: What is the amount of calories gained from the consumption of lunch by a student?=Q3: What is the fraction of calorie burnt to calorie gained?=A1: 10=A2: 600=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div (Q1, Q2)=P: Mul (Q3, 100)", "answer": "1.60%", "context": "CONTEXT:=F1: The calories burnt in switching classes is 10 calories=F2: The amount of calories present in a lunch meal is 600 calories"}, {"question": "How many grams of steam are needed to melt a cubic foot of ice?", "program": "PROGRAM:=Q1: What is the weight equivalent of one cubic foot of ice?=Q2: How many grams of ice can 1 gram of steam melt?=A1: 28300 g=A2: 8 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "3537", "context": "CONTEXT:=F1: The weight equivalent of one cubic foot of ice is 28300 gm=F2: The density of earth is 5.5e+12 kg per cubic cm"}, {"question": "How many tablespoons of water would fill a container?", "program": "PROGRAM:=Q1: What is the volume of a normal container?=Q2: What is the volume of a tablespoon filled water?=A1: 1L=A2: 0.005L=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "200", "context": "CONTEXT:=F1: The average volume of a container is 1 L=F2: The average volume of a tablespoon filled water is 0.005 L"}, {"question": "The size of sphere made by taking all human body mass and forming it together in space.", "program": "PROGRAM:=Q1: What is the mass of an average human being?=Q2: What is the density of an average human being?=A1: 60 kg=A2: 985 kg/m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.06 m**3", "context": "CONTEXT:=F1: The mass of an average human being is 60 kg=F2: The density of an average human being is 985 kg/m**3"}, {"question": "How many construction sites are there in the US right now?", "program": "PROGRAM:=Q1: How many sites are registered in the US Housing and Urban development authority with the status - \"incomplete\"=A1: 1793000=P: A1 | F1", "answer": "1793000", "context": "CONTEXT:=F1: The sites registered with the US Housing and Urban development authority is 1793000"}, {"question": "Based on the current rate of infection of Covid-19, is there any way to estimate the number of people who will test positive world wide?", "program": "PROGRAM:=Q1: What is the ratio of getting infected by covid 19 right now?=Q2: What is the total human population in the world?=A1: 45=A2: 7.2e+9=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "160000000", "context": "CONTEXT:=F1: Currently, every 1 person in 45 is being tested positive.=F2: The total human population is 7.2e+9."}, {"question": "If Bill Gates started paying everyone $1 for every point of karma they earned on reddit, how fast would he go broke?", "program": "PROGRAM:=Q1: How many karma points are gained each day on reddit?=Q2: What is the net worth of Bill Gates?=Q3: How many active users are there on Reddit?=Q4: What is the average karma earned by an active user on Reddit each day?=A1: 52e+6=A2: 10 day**-1=A3: 1.34e+12=Q4 -> A2 | F2=Q3 -> A1 | F1=Q1 -> Mul (Q3, Q4)=Q2 -> A3 | F3=P: Div (Q2, Q1)", "answer": "2577 days", "context": "CONTEXT:=F1: There are 52e+6 active users on Reddit each day.=F2: An average reddit active user gains around 10 karma points each day.=F3: Net Worth of Bill Gates is 1.34e+12"}, {"question": "How many human ancestors do I have?", "program": "PROGRAM:=Q1: What is the rate at which the number of ancestors grow as we go up?=Q2: How many generations did the human civilisation have till now?=A1: 2=A2: 300=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Pow (Q1, Q2)", "answer": "2.00E+90", "context": "CONTEXT:=F1: What is the rate at which the number of ancestors grow as we go up is 2=F2: The human race is 300 generations old."}, {"question": "How many cigrettes are needed to raise the temperature of the atmosphere by 1 degree celsius?", "program": "PROGRAM:=Q1: How much energy does it take to increase the global temperature by 1 degree?=Q2: How much energy does an average cigarette produce before burning out completely?=A1: 5e+18 J=A2: 1 J=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "5.00E+18", "context": "CONTEXT:=F1: It takes 5e+18 Joules to raise the global temperature by 1 degree.=F2: An average cigarette provides heat energy of 1 Joule"}, {"question": "How many people attend Art Beat in South Bend each year?", "program": "PROGRAM:=Q1: What is the surface area on the streets of South Bend?=Q2: What is the average surface area occupied by a single person?=Q3: What is the length of the street?=Q4: What is the breadth of the street?=A1: 1 m**2=A2: 2000 m=A3: 30 m=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Div (Q1, Q2)", "answer": "60000", "context": "CONTEXT:=F1: An average human takes up 1m**2 area.=F2: The length of the street is 2000 m=F3: The breadth of the street is 30 m"}, {"question": "How many apples are there in the world at any one time?", "program": "PROGRAM:=Q1: How many apple trees are there in the world?=Q2: How many apples does a single apple tree contain on an average?=A1: 2e+6=A2: 500=Q2 -> A2 | F2=Q1 -> A1 | F1 & F3=P: Mul (Q1, Q2)", "answer": "1.00E+09", "context": "CONTEXT:=F1: There are around 2e+6 apple trees in the world.=F2: A single apple tree contains around 500 apples=F3: Though a lot of factors are involved in calculating no of apples at one time, essentially it boils down to the number of apples produced by the trees collectively during one season."}, {"question": "How much heat is lost when urine is voided?", "program": "PROGRAM:=Q1: How much urine is let out when an average person pees once?=Q2: How much heat is contained in a single mL of urine?=A1: 400 mL=A2: 0.1 cal*mL**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "40 cal", "context": "CONTEXT:=F1: An average person pees 400 mL at once.=F2: Around 0.1 cal of heat is present in a single mL of urine. [assumption]"}, {"question": "What is the total mass of COVID19 globally?", "program": "PROGRAM:=Q1: How many people are affected with Covid 19?=Q2: What is the mass of Covid19 inside a human body?=A1: 168000000=A2: 5e-5 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "8400 g", "context": "CONTEXT:=F1: Total number of people affected with COVID19 virus globally is 168000000=F2: The mass of COVID19 virus inside human body is 5e-5 g"}, {"question": "What's the value of all of mankind's buried grave goods?", "program": "PROGRAM:=Q1: How many humans have been buried till now?=Q2: What is the value of a grave good buried along with the person?=A1: 107e+9=A2: $5=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$5.3e+11", "context": "CONTEXT:=F1: Around 107e+9 people have been buried till now?=F2: Assuming that one grave item of 5 USD in value has been buried along with every human that has died till now."}, {"question": "How many computer keyboard strokes have been made to date?", "program": "PROGRAM:=Q1: How many keyboard strokes take place on an average computer in its lifetime?=Q2: How many computers are there in the world?=Q3: How many keystrokes does a person hit in a year on an average?=Q4: What is the average lifespan of a computer?=A1: 2e+9=A2: 6e+6=A3: 10=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.20E+17", "context": "CONTEXT:=F1: There are around 2e+9 computers in the world.=F2: An average person hits 6e+6 keystrokes in a year.=F3: The average lifespan of a computer is 10 years."}, {"question": "How many children would a couple have to have in order to negate the need of a heating system in a modern average sized home?", "program": "PROGRAM:=Q1: What is the total heat needed to generate to compensate for the need of a heating system?=Q2: What is the average heat produced by the presence of a single child?=A1: 9600 W=A2: 80 W=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "120", "context": "CONTEXT:=F1: The total heat generated by a heater is 9600 W=F2: The average heat given off by a single person is 80 W"}, {"question": "What is the volume, cc, of the TiO2 in a gallon of paint formulation?", "program": "PROGRAM:=Q1: What is the volume of TiO2 in terms of gallon in a gallon of paint formulation?=Q2: What is the conversion factor from gallon to cc?=Q3: What is the quantity of paint that is being formulated?=Q4: What percent of TiO2 is used during the formulation of paint?=A1: 3785 cm**3*gal**-1=A2: 1 gal=A3: 0.4=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1514 cm**3", "context": "CONTEXT:=F1: The conversion factor from gallon to cc is 3785 cc/gal=F2: The quantity of paint being formulated is 1 gal=F3: The percent of TiO2 present in formulation of paint is 40%"}, {"question": "How much wood stores the yearly CO2 increase per human?", "program": "PROGRAM:=Q1: What is the yearly CO2 exhaled by humans?=Q2: What is the yearly CO2 production capacity of wood?=A1: 3e+9 ton=A2: 1 m**3*ton**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3e+9 m**3", "context": "CONTEXT:=F1: Humans exhale 3e+9 tons of CO2 every year.=F2: 1m**3 wood stores a ton of CO2 each year"}, {"question": "How many people are involved in delivering and preparing the food consumed by Chicago in a day?", "program": "PROGRAM:=Q1: How many restaurants are there in Chicago?=Q2: What is the average number of workers in a single restaurant?=A1: 7500=A2: 40=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "300000", "context": "CONTEXT:=F1: There are around 7500 restaurants in Chicago.=F2: An average restaurant in the US has around 40 employees."}, {"question": "How many plastic flamingos are there in the United States?", "program": "PROGRAM:=Q1: How many houses in the US have lawns?=Q2: What is the average number of plastic flamingos used in a single lawn for decoration purposes?=A1: 112000000=A2: 3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "336000000", "context": "CONTEXT:=F1: The total number of US that have laws is 112000000=F2: The average number of flamingos in a single lawn is 3"}, {"question": "How many 50-meter swimming pools could the water from the Earth's average daily rainfall fill?", "program": "PROGRAM:=Q1: What is the quantity of earth's average rainfall?=Q2: What is the average volume of a 50m swimming pool?=A1: 300e+6 L=A2: 2.5e+6 L=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "120", "context": "CONTEXT:=F1: The quantity of average daily rainfall is 300e+6 L=F2: The volume of a 50m swimming pool is 2.5e+6 L"}, {"question": "How many atoms thick are the connecting paths inside a micro chip?", "program": "PROGRAM:=Q1: What is the thickness of the connecting parts in a microchip?=Q2: What is the thickness of an average atom?=A1: 0.9e-9 m=A2: 0.3e-9 m=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "3", "context": "CONTEXT:=F1: The thickness of the connecting parts in a microchip is 0.9e-9 m=F2: The thickness of an average atom is 0.3e-9 m"}, {"question": "How dense is the Milky Way galaxy in terms of stars per cubic light year?", "program": "PROGRAM:=Q1: What is the density of the sun in terms of stars per cubic light year?=Q2: What is the ratio of the density of the milky way to the density of the sun?=Q3: What is the density of the milky way?=Q4: What is the density of the sun?=A1: 0.004 ly**-3=A2: 5e+12 kg*m**-3=A3: 1408 kg*m**-3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "14204545 ly**-3", "context": "CONTEXT:=F1: The density of sun in stars per cubic light year is 0.004 stars ly**-3=F2: The density of the milky way is 5e+12 kg*m**-3=F3: The density of the sun is 1408 kg*m**-3"}, {"question": "What is the total carcass weight of roadkill in USA each year?", "program": "PROGRAM:=Q1: What is the carcass weight of animals killed in roadkill in a year?=Q2: What is the carcass weight of humans killed in roadkill in a year?=Q3: How many humans die due to roadkill every year?=Q4: What is the average mass of a human?=Q5: What is the number of animals that die every year due to roadkill?=Q6: What is the average mass of an animal?=A1: 38000=A2: 62 kg=A3: 253000=A4: 15 kg=Q6 -> A4 | F4=Q5 -> A3 | F3=Q2 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q3 -> A1 | F1=Q1 -> Mul (Q3, Q4)=P: Add (Q1, Q2)", "answer": "6151000 kg", "context": "CONTEXT:=F1: The number of humans who die in roadkill every year in the USA are 38000.=F2: The average mass of a human is 62 kg.=F3: The average number of animals that die every year due to roadkill in USA is 253000.=F4: The average mass of an animal is 15 kg."}, {"question": "A floppy disk for a computer stores information by magnetizing small regions of the disk. For a typical floppy disk, estimate the area of the disk that corresponds to a single bit of information.", "program": "PROGRAM:=Q1: What is the total area available on a floppy disk?=Q2: What is the maximum data that a single floppy disk can hold?=A1: 225 cm**2=A2: 256 kilobyte=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.87 cm ** 2 * kilobyte ** -1", "context": "CONTEXT:=F1: The total area of a floppy disk is 225 cm square.=F2: The maximum capacity of a floppy disk is 256 kb"}, {"question": "If Earth were flat and my antenna was sufficiently high, how much power would I need to broadcast a radio station to the whole world?", "program": "PROGRAM:=Q1: What is the total surface area of Earth, had it been flat?=Q2: What is the power required to broadcast radio over a sq. km?=A1: 510e+6 km**2=A2: 1e+10 W*km**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5.1e+18 W ", "context": "CONTEXT:=F1: The total surface area of Earth had it been flat is 510e+6 km**2=F2: The power required to broadcast radio over a sq. km is 1e+10 W"}, {"question": "If all the people in the world moved to Victoria, how crowded would it be?", "program": "PROGRAM:=Q1: What is the area of Victoria?=Q2: What is the total world population?=A1: 227444000000 km**2=A2: 7670000000 people=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q2, Q1)", "answer": "0.034 person * kilometre **-2", "context": "CONTEXT:=F1: The total area of Victoria is 227444 sq km.=F2: The total world population is 7670000000 people"}, {"question": "How does the rate of infections of the H1N1 pandemic compare to the Covid19 pandemic?", "program": "PROGRAM:=Q1: What is the serial interval of H1N1 pandemic?=Q2: What is the serial interval of Covid19 pandemic?=A1: 3=A2: 6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.5", "context": "CONTEXT:=F1: The serial interval of H1N1 is 3 days.=F2: The serial interval of Covid19 is 6 days."}, {"question": "How many times does your heart beat per year?", "program": "PROGRAM:=Q1: How many times does our heart beat in a day?=Q2: How many hours are there in a day?=Q3: How many times does our heart beat in an hour?=Q4: How many minutes are there in an hour?=Q5: How many times does our heart beat in a minute?=Q6: How many days are there in a year?=A1: 365=A2: 24=A3: 60=A4: 80=Q5 -> A4 | F4=Q4 -> A3 | F3=Q3 -> Mul (Q4, Q5)=Q2 -> A2 | F2=Q1 -> Mul (Q2, Q3)=Q6 -> A1 | F1=P: Mul (Q6, Q1)", "answer": "42048000", "context": "CONTEXT:=F1: There are 365 days in a year.=F2: There are 24 hours in a day.=F3: There are 60 minutes in an hour.=F4: A normal heart beats 80 times a minute."}, {"question": "In the US over the last 100 years, how many individual murders have been attributed to reasons other than \"homicide\"?", "program": "PROGRAM:=Q1: How many murder cases have been registered with the US in the last 100 years?=Q2: What percent of individual murders are attributed to reasons other than homicides?=Q3: What is the total percentage of murders?=Q4: What is the percentage of homicide murders?=A1: 1600000=A2: 1=A3: 0.05=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Sub (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1520000", "context": "CONTEXT:=F1: Around 1600000 cases have been registered as murders with the US police in the last 100 years.=F2: The total percentage of murders is 100=F3: Around 5 percent of US murders are homicides."}, {"question": "Abhinav", "program": "PROGRAM:=Q1: What is the new depth of the oceans?=Q2: What is the total volume of the oceans after every living person has jumped in?=Q3: What is the surface area of the ocean?=Q4: What is the total human population?=Q5: What is the average volume of a human?=Q6: What is the original depth of the oceans?=Q7: What is the total human volume?=Q8: What is the total ocean volume?=A1: 510e+6 km**2=A2: 7.2e+9=A3: 6.2e-11 km**3=A4: 3.7 km=A5: 1.96e+9 km**3=Q5 -> A3 | F3=Q4 -> A2 | F2=Q7 -> Mul (Q4, Q5)=Q8 -> A5 | F5=Q2 -> Add (Q7, Q8)=Q3 -> A1 | F1=Q1 -> Div (Q2, Q3)=Q6 -> A4 | F4=P: Sub (Q1, Q6)", "answer": "0.14 km", "context": "CONTEXT:=F1: The surface area of the oceans is 510e+6 sq. km.=F2: The total human population is 7.2e+9=F3: The average human volume is 6.2e-11 cubic km=F4: The original depth of the oceans is 3.7 km=F5: The total ocean's volume is 1.96e+9 km**3"}, {"question": "During the course of a calendar year, how far, km, through space has the moon traveled?", "program": "PROGRAM:=Q1: How far does the moon travel in a day?=Q2: What is the duration of the calendar year?=A1: 2415009 km=A2: 365=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "881478285 km", "context": "CONTEXT:=F1: The moon covers roughly 2415009 km every day.=F2: There are 365 days in a year"}, {"question": "In an average year, how many lives would be saved if everyone around the world were required to wear a face mask in public?", "program": "PROGRAM:=Q1: How many lives are lost every year due to air pollution?=Q2: How many lives are lost every year due to second-hand smoking?=A1: 7000000=A2: 41000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Add (Q1, Q2)", "answer": "7041000", "context": "CONTEXT:=F1: 7e+6 lives are lost every year due to air pollution=F2: 41000 lives are lost every year due to second-hand smoking"}, {"question": "How much does the luminosity of the sun decrease with every passing second/minute?", "program": "PROGRAM:=Q1: How many particles escape from the sun every second?=Q2: What is the luminosity of a single particle on the sun?=A1: 100e+6=A2: 10 W=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1e+9 W", "context": "CONTEXT:=F1: Around 100e+6 particles escape the sun every second.=F2: Each particle has a luminosity of about 10 W [assumption]"}, {"question": "How many RBCs are created per second in an adult male?", "program": "PROGRAM:=Q1: How many RBCs are produced in a minute?=Q2: How many minutes are there in a second?=A1: 138888888=A2: 60 s=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2314815 s**-1", "context": "CONTEXT:=F1: The number of RBCs created in a minute is 138888888=F2: There are 60 seconds in a minute"}, {"question": "How many Tesla model X p100ds would it take to pull a megalodon out of the water?", "program": "PROGRAM:=Q1: What is the Tesla Model X's towing capacity?=Q2: What is the weight of a megalodon?=A1: 6700 pounds=A2: 66138 pounds=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "10", "context": "CONTEXT:=F1: The towing capacity of a Model X is 6700 pounds=F2: The weight of a megalodon is 66138 pounds."}, {"question": "How many New Yorkers are awake through the night?", "program": "PROGRAM:=Q1: What is the total population of New York?=Q2: What percent of New York is awake at night?=A1: 8.4e+6=A2: 0.25=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.10E+06", "context": "CONTEXT:=F1: The population of New York is 8.4e+6=F2: 25% of the population of New York is awake at night."}, {"question": "How much time would it take to transfer all YouTube videos to a different site to solve the adpocalypse?", "program": "PROGRAM:=Q1: How many videos are there on YouTube?=Q2: What is the average time taken to transfer a single video?=A1: 261e+9=A2: 10 min=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "261e+10 min", "context": "CONTEXT:=F1: There are around 26100000000 videos on YouTube as of 2020=F2: The average time taken to transfer a single video is 10 min"}, {"question": "How much does San Fransisco weigh?", "program": "PROGRAM:=Q1: What is the average mass per sq.ft in a city?=Q2: What is the total area of a normal city?=A1: 22kg*ft**-2=A2: 1.3e+9 ft**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.8e+10 kg", "context": "CONTEXT:=F1: The average mass per sq.ft in a city is 22 kg (including buildings, appliances, etc) [estimate]=F2: The total area of San Fransisco is 1.3e+9 sq.ft"}, {"question": "How many cups of water are there in a bath tub?", "program": "PROGRAM:=Q1: What is the average volume of a bath-tub?=Q2: What is the average volume of a water cup?=A1: 10.65 ft**3=A2: 0.009 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "1180", "context": "CONTEXT:=F1: The average volume of a bath-tub is 10.65 cubic feet.=F2: The average volume of a water-cup is 0.009 cubic feet."}, {"question": "How many electrons would flow through an iPod in one day?", "program": "PROGRAM:=Q1: What is the average current consumption of an iPod daily?=Q2: How many electrons are present in one amp current?=A1: 0.025 ampere=A2: 6e+18 ampere**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "1.50E+17", "context": "CONTEXT:=F1: An iPod on an average uses about 0.025 amp of current daily.=F2: The number of electrons in one amp current is 6*10^18 electrons"}, {"question": "What is the average number of first cousins that a person living in the United States has?", "program": "PROGRAM:=Q1: What is the total number of aunts/uncles a kid has on an average?=Q2: How many kids does a single family have in the US on an average?=Q3: How many parents does a single child have?=Q4: How many siblings does a person's parents have on average in the US?=A1: 2=A2: 2=A3: 3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "12", "context": "CONTEXT:=F1: A single family has 2 kids on an average.=F2: Each kid has 2 parents.=F3: Each parent has around 3 siblings."}, {"question": "How many tenured professors are there in the world?", "program": "PROGRAM:=Q1: Roughly, how many universities are there in the world?=Q2: What is the average number of tenured professors in a university.=A1: 25000=A2: 20=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "500000", "context": "CONTEXT:=F1: There are 25000 universities in the world roughly.=F2: The average number of tenured professors in a university is 20"}, {"question": "I just cooled myself off by rubbing an ice cube on my skin until it melted. How much energy did it take from body?", "program": "PROGRAM:=Q1: What is the volume of an average ice cube?=Q2: What is the energy produced by melting 1 metre cube of ice?=A1: 30e-3 L=A2: 334e+3 J*L**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "10020 J", "context": "CONTEXT:=F1: The volume of an ice cube is 30 mL=F2: A total of 334 J is released on heating an ice particle of 1 mL"}, {"question": "How many square miles of paved surfaces are there in our city?", "program": "PROGRAM:=Q1: What is the total road length in the city?=Q2: What is the average width of a paved surface in our city?=A1: 396540 miles=A2: 0.001 miles=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "397 miles ** 2", "context": "CONTEXT:=F1: The total lane miles of California is 396540 miles=F2: The average width of a paved surface is 0.001 miles"}, {"question": "What is the surface area of a bath towel?", "program": "PROGRAM:=Q1: What is the average length of a bath towel?=Q2: What is the average breadth of a bath towel?=A1: 150 cm=A2: 45 cm=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "6750 cm**2", "context": "CONTEXT:=F1: The average length of a bath towel is 150 cm=F2: The average breadth of a bath towel is 45 cm."}, {"question": "How much force can a fit man exert to pry something open using a crowbar?", "program": "PROGRAM:=Q1: How much pressure is applied by a fit and in prying something open using a crowbar?=Q2: What is the average target area of impact?=A1: 10000 N*m**-2=A2: 0.025 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "250 N", "context": "CONTEXT:=F1: The average pressure a fit man would exert to pry something using crow bar is 10000 Pascal=F2: The surface area of impact is 0.025 metre square"}, {"question": "If it were to rain an average of 1 cm per hour over the entire surface of the earth, how many cubic miles of water would have rained during the course of one day?", "program": "PROGRAM:=Q1: How much rain is it if it is raining 1 cm per hour on the surface of earth?=Q2: How many hours are there in a day?=Q3: How much rain is 1 cm rain for 1 hour on 1 acre?=Q4: What is the surface area of earth?=A1: 6.2e-8 mi**3*acre**-1=A2: 24=A3: 126e+12 acre=Q4 -> A3 | F3=Q3 -> A1 | F1=Q1 -> Mul (Q3, Q4)=Q2 -> A2 | F2=P: Mul (Q2, Q1)", "answer": "187488000 mi**3", "context": "CONTEXT:=F1: The volume of water accumulated if it is raining 1 cm an hour for a acre is 6.2e-8 mi**3*acre**-1=F2: There are 24 hours in a day.=F3: The surface area of earth is 126e+12 acre"}, {"question": "How many laps would I need to make around our classroom to go a mile?", "program": "PROGRAM:=Q1: What is the number of miles that is to be covered?=Q2: What is the perimeter of a classroom?=A1: 1 miles=A2: 0.02 miles=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q1, Q2)", "answer": "50", "context": "CONTEXT:=F1: The number of miles to be run is 1.=F2: The perimeter of the classroom is 0.02 miles"}, {"question": "How many calories does a student burn while switching classes?", "program": "PROGRAM:=Q1: What is the distance between two classes?=Q2: How many calories are burnt from walking a mile?=A1: 0.1 miles=A2: 0.01 miles/calorie=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q1, Q2)", "answer": "10 calories", "context": "CONTEXT:=F1: The distance between 2 classes is 0.1 miles.=F2: It takes 0.01 miles to burn 1 calorie."}, {"question": "How much ice (in pounds) is scraped off a hockey rink during one period?", "program": "PROGRAM:=Q1: How many km of distance is covered on the hockey rink during one single period?=Q2: What is the amount of ice that is scraped off for every km skated on ice?=A1: 20 km=A2: 1 pounds/km=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "20 pounds", "context": "CONTEXT:=F1: Around 20 km of distance is covered on ice during one period. (Assumption)=F2: For every km skated on ice, around 1 pound of ice is scraped off (Assumption)"}, {"question": "How far does a bee fly each day?", "program": "PROGRAM:=Q1: How many hours does the bee spend on flying each day?=Q2: What is the average speed at which a bee flies?=A1: 4 hour=A2: 15 miles/hour=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "60 miles", "context": "CONTEXT:=F1: The bee flies for a total of around 4 hours each day.=F2: The average speed at which a bee flies is 15 miles per hour"}, {"question": "How many beers would it take for a 180-kg male tiger to reach BAC of 0.08% after two hours?", "program": "PROGRAM:=Q1: How many beers does it take to reach a BAC of 0.08% in humans?=Q2: What is the ratio of blood volume in tigers to humans?=Q3: What is the total volume of blood in tigers?=Q4: What is the total volume of blood in humans?=A1: 3=A2: 3.8 gal=A3: 1.5 gal=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "7.59", "context": "CONTEXT:=F1: It takes 3 beers for humans to reach a BAC of 0.08%=F2: The total blood volume in tigers is 3.8 gallons=F3: The total blood volume in humans is 1.5 gallons."}, {"question": "If I throw a pot of water towards the sun (assuming that the water stays in the pot) how close would it get before the water would boil?", "program": "PROGRAM:=Q1: How much water evaporates per km traveled in space?=Q2: What is the quantity of water given?=A1: 2L*km**-1=A2: 10 L=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "5 km", "context": "CONTEXT:=F1: Around 2 litres of water evaporates per km travelled in space. (assuming the heat is uniform in the first 100 kms)=F2: the quantity of water given is 10 L"}, {"question": "How many gum balls would it take to reach from the Earth to the Moon?", "program": "PROGRAM:=Q1: What is the distance between Earth and Moon?=Q2: What is the diameter of a gum ball?=A1: 384400 km=A2: 0.000054 km=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "7118518518", "context": "CONTEXT:=F1: The distance between Earth and moon is 384400 km=F2: The diameter of a gum ball is 0.000054 km"}, {"question": "how loud do you have to scream at a piece of bread for it to be toast?", "program": "PROGRAM:=Q1: How much energy does it take to convert bread into toast?=Q2: What is the energy produced when an average human shouts (80 db)?=A1: 67500 J=A2: 0.001 J=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "6.70E+07", "context": "CONTEXT:=F1: It takes 67500 J to convert bread into toast.=F2: The average energy produced when a person shouts is 0.001 J"}, {"question": "What is the hourly pay rate of the biggest Hollywood actors?", "program": "PROGRAM:=Q1: How much do the big Hollywood stars earn per day?=Q2: How many working hours are there in a day?=A1: $20000=A2: 10 hours=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "$2000 hour**-1", "context": "CONTEXT:=F1: There daily pay of a top hollywood actor is around 200000 USD=F2: There are 10 working hours in a day."}, {"question": "If all of the TiO2 pigment particles in the gallon of paint were place side by side as in a chain, how long, km, is the chain?", "program": "PROGRAM:=Q1: What is the length of a single TiO2 pigment?=Q2: What is the number of TiO2 pigments present in a gallon of paint?=Q3: What is the volume of the gallon of paint in metre cube?=Q4: What is the volume of a single TiO2 pigment?=A1: 1e-11 km=A2: 4e-12 km**3=A3: 1e-9 km**3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "4e-14 km", "context": "CONTEXT:=F1: The length of a single TiO2 pigment is 1e-11 kilometres=F2: The total volume in a gallon of paint is 4e-12 kilo metre cube=F3: The volume of single TiO2 pigment is 1e-9 kilometre cube"}, {"question": "How many years of university and training would Barbie need to qualify for all of the jobs she's had over the years?", "program": "PROGRAM:=Q1: How many different careers did Barbie have?=Q2: What are the average years of university and training spent in getting a job?=A1: 72=A2: 6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "432", "context": "CONTEXT:=F1: Barbie had 72 different careers.=F2: The average years of university and training that it takes to get a job in one career industry is 6 years."}, {"question": "How many times would this hula hoop roll to travel down the hall?", "program": "PROGRAM:=Q1: What is the length of the hall?=Q2: What is the average distance covered in one roll of the hula hoop?=A1: 50 m=A2: 0.5 m=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "100", "context": "CONTEXT:=F1: The length of the hall is 50 meters=F2: The average distance covered by a hula hoop in one roll is 0.5 m"}, {"question": "How many people were involved in the production of the Lord of the Rings trilogy?", "program": "PROGRAM:=Q1: How many movies are there in the Lord of the Rings trilogy?=Q2: What is the average number of people that have been a part of the production for a single Lord of the Rings movie?=A1: 3=A2: 2400=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "7200", "context": "CONTEXT:=F1: There are 3 Lord of the Rings movies.=F2: Around 2400 people were involved in the production of a single Lord of the Rings movie."}, {"question": "How tall could a man be before he dies of organ failure?", "program": "PROGRAM:=Q1: What is the height of the tallest person in the world?=Q2: What is the maximum limit upto which the person can grow tall?=A1: 231 cm=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "462 cm", "context": "CONTEXT:=F1: The maximum known height is 231 cm. Assuming the double of that height with the same proportion of organs as that of a 231 cm height person would lead to the organ failure of the tallest person.=F2: The maximum limit is 2x of 231 cm."}, {"question": "If the known universe were placed on a microscope slide, what magnification would be necessary to see Earth?", "program": "PROGRAM:=Q1: What is the volume of the universe?=Q2: What is the volume of earth?=A1: 3.5e+80 m**3=A2: 1.1e+21 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "3.10E+59", "context": "CONTEXT:=F1: The volume of the universe is 3.5e+80 m**3=F2: The volume of the earth is 1.1e+21 m**3"}, {"question": "How many ping pongs balls would it take to fill the classroom?", "program": "PROGRAM:=Q1: What is the average volume of a classroom?=Q2: What is the average volume occupied by a ping pong ball in free space?=A1: 7680 ft**3=A2: 0.0012 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "6400000", "context": "CONTEXT:=F1: The average volume of a classroom is 7680 cubic feet.=F2: The average volume occupied by a single ping pong ball in freespace is 0.0012 cubic feet."}, {"question": "If every human that's ever lived was brought back to life. What would be the population density people per square kilometer?", "program": "PROGRAM:=Q1: What is the new population?=Q2: What is the total surface area of Earth?=Q3: What is the total population on Earth?=Q4: How many people have died till now?.=Q5: How many people die each year on an average?=Q6: How many years has it been since the AD?=A1: 510e+6 km**2=A2: 7.2e+9=A3: 55e+6=A4: 120000=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q1 -> Add (Q3, Q4)=Q2 -> A1 | F1=P: Div (Q1, Q2)", "answer": "12955 km**-2", "context": "CONTEXT:=F1: Total surface area of Earth is 510e+6 km square=F2: The total population on earth is 7.2e+9=F3: Around 55e+6 people die each year.=F4: It has been 120000 years since the start of human-life on earth."}, {"question": "If Plants stop producing oxygen, how long can we survive?", "program": "PROGRAM:=Q1: What is the total production of oxygen by plants in a year?=Q2: What is the total oxygen consumption by the population on earth?=Q3: What is the total population on earth?=Q4: What is the average oxygen consumption for a year of a normal person?=A1: 2.772e+15 L=A2: 7.2e+9=A3: 200750 L*year**-1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.8 years", "context": "CONTEXT:=F1: The total production of oxygen consumption by the plants is 2.772e+15 L=F2: The total population on earth is 7.2e+9=F3: The total oxygen consumption of a single person on earth is 200750 L"}, {"question": "What is the smallest number of cells that can be seen with the naked eye?", "program": "PROGRAM:=Q1: What is the minimum size of an object that falls under the visible range of a human?=Q2: What is the normal size of a cell?=A1: 1e-4 m=A2: 1e-6 m=Q2 -> A2| F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "100", "context": "CONTEXT:=F1: The minimum size visible to a human is 1e-4 m=F2: The normal size of a cell is 1e-6 m"}, {"question": "How many sheets of paper would we need to stack to reach your height?", "program": "PROGRAM:=Q1: What is your height?=Q2: What is the average thickness of a sheet of paper?=A1: 1.73 m=A2: 0.00008 m=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "21625", "context": "CONTEXT:=F1: The height is 1.73 m=F2: The average thickness of a sheet of paper is 0.00008 m"}, {"question": "How many total items are in my house?", "program": "PROGRAM:=Q1: How many rooms does my house have, including kitchen and living rooms?=Q2: What is the average number of items in a single room?=A1: 4=A2: 50=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "200", "context": "CONTEXT:=F1: There are 4 rooms on an average in any home.=F2: The average number of items in a room is 50"}, {"question": "How thick, in meters, a water layer would be formed if all of this water were to condense simultaneously all over the earth?", "program": "PROGRAM:=Q1: What is the amount of gaseous water in the atmosphere?=Q2: What is the surface area of the earth?=A1: 1.2e+13 m**3=A2: 5.1e+14 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.023 m", "context": "CONTEXT:=F1: The amount of gaseous water in the atmosphere is 1.2e+13 m**3=F2: The surface area of the earth is 5.1e+14 m**2"}, {"question": "How much lower would sea levels be if there weren't all the animals in it displacing water?", "program": "PROGRAM:=Q1: What is the height of the original sea level?=Q2: What is the height of sevel without all the animals?=Q3: What is the ratio of volume of water without all the animals and with the animals?=Q4: What is the original height of sea level?=A1: 3.7 km=A2: 0.8=A3: 3.7 km=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "0.74 km", "context": "CONTEXT:=F1: The height of the original sea level is 3.7 km.=F2: The ratio of height of volume of water without all the animals and with the animals is 0.8.=F3: The height of the original sea level is 3.7 km."}, {"question": "How many shrimps do I need to get 10g of Chitin?", "program": "PROGRAM:=Q1: What is the wastage of Shrimp?=Q2: What percent wastage of Shrimp is used to get Chitin?=Q3: What is the mass of Chitin given?=Q4: What percent of Chitin is wastage?=A1: 0.4=A2: 10 g=A3: 0.45=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "55.5 g", "context": "CONTEXT:=F1: About 40% of wastage from Shrimp is Chitin.=F2: The mass of Chitin given is 10 grams=F3: About 45% of Shrimp is wastage."}, {"question": "The Federal Budget Deficit is approximately $100 Billion this year. What percentage of this do Americans spend on food in grocery stores in one year?", "program": "PROGRAM:=Q1: How many months are there in a year?=Q2: What is the monthly expenditure of a US consumer for food in grocery stores?=A1: 12=A2: 550=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$6600", "context": "CONTEXT:=F1: There are 12 months in a year.=F2: The average monthly expenditure of a US consumer on food in grocery stores is 550 USD"}, {"question": "What is the weight of air in your living room?", "program": "PROGRAM:=Q1: What is the volume of the living room?=Q2: What is the mass of air per metre cube?=A1: 49=A2: 1.225 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "60 kg", "context": "CONTEXT:=F1: The volume of an average living room is 49 metre cube=F2: The mass of air per metre cube is 1.225 kg/m**3"}, {"question": "The deficit in the Federal Budget this past year was approximately $100 Billion. Supposing the deficit were paid in $1 bills and they were layed out on the ground without overlapping, estimate what fraction of the District of Columbia that could be covered by the dollar bills.", "program": "PROGRAM:=Q1: What is the total area of the District of Columbia?=Q2: What is the total area occupied by the 100 Billion 1 dollar coins?=Q3: What is the surface area of a one dollar coin?=Q4: How many coins do we have in total?=A1: 177 km**2=A2: 0.0000045 km**2=A3: 1000000000=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q4, Q3)=Q1 -> A1 | F1=P: Div(Q2, Q1)", "answer": "25", "context": "CONTEXT:=F1: The area of the district of Columbia is 177 sq km=F2: The area occupied by a one dollar coin is 0.0000045 sq km=F3: There are 1 billion coins in total."}, {"question": "How much digital storage space would it require to store all of humanity's scientific and technological knowledge?", "program": "PROGRAM:=Q1: What is the total number of articles on arXiv?=Q2: What is the average file size of an article on arXiv?=A1: 2152000=A2: 1 MB=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2152000 MB", "context": "CONTEXT:=F1: The total number of articles on arXiv are 2152000 (estimate)=F2: The average size of an article on arXiv is 1 MB"}, {"question": "According to wikipedia, there are 484 ethnic groups in the world. If you were to have a baby from each ethnic group. What percentage of the worlds population would be related to you ?", "program": "PROGRAM:=Q1: What percent of ethnic groups has one covered trying to make a baby with each ethnic group?=Q2: Given that the person has made a baby with an ethnic group, does that mean the entire population of that ethnic group is related to him?=A1: 100=A2: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "100", "context": "CONTEXT:=F1: The person has made babies with 100% of the ethnic groups in the world.=F2: Yes, after making a baby with a specific ethnic group, the entire population of the group becomes related to that person. Here the fact true is represented by the integer '1'"}, {"question": "How many man-hours of programmers did it take to create Skyrim?", "program": "PROGRAM:=Q1: What is the duration of the skyrim project in hours?=Q2: How many people were involved in the skyrim project?=Q3: How many days did it take for Skyrim project to be built?=Q4: How many working hours are there in a day?=Q5: How many years did it take to create the Skyrim Game?=Q6: How many working days are there in a year?=A1: 100=A2: 8 hours/day=A3: 3 years=A4: 260 days/year=Q6 -> A4 | F4=Q5 -> A3 | F3=Q3 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "624000 hours", "context": "CONTEXT:=F1: Roughly, 100 people were involved in creating Skyrim?=F2: There are 8 hours in a day.=F3: It took 3 years for Skyrim to complete.=F4: There are 260 working days in a year."}, {"question": "How many watts would a heater need to keep a local pond from freezing in winter?", "program": "PROGRAM:=Q1: How many watts of energy is required to keep a litre of water from freezing?=Q2: What is the volume of an average pond?=A1: 1.15 W*L**-1=A2: 1233480 L=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1418502 W", "context": "CONTEXT:=F1: 1.15 Watts is required to keep a litre of water from freezing.=F2: The average volume of a pond is 1233480 liters"}, {"question": "What's the average lifespan of an Earthling?", "program": "PROGRAM:=A1: 75 years=P: A1 | F1", "answer": "75 years", "context": "CONTEXT:=F1: The average lifespan of an earthling is 75 years. [given as a straightforward fact without any mathematical reasoning]"}, {"question": "If you had a stack of $2 coins as tall as Mt Kosciusko, what would it be worth?", "program": "PROGRAM:=Q1: What is the total number of coins?=Q2: What is the value of a single coin in the stack?=Q3: What is the height of MT. Kosciusko?=Q4: What is the average thickness of a 2 dollar coin?=A1: 2=A2: 2228 m=A3: 0.002 m=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$2228000", "context": "CONTEXT:=F1: The value of a coin in the stack is 2 USD=F2: The height of Mt. Kosciusko is 2228 m=F3: The thickness of a 2 dollar coin is 0.002 m"}, {"question": "How long would it have taken ENIAC (or another early computer) to mine 1 bitcoin?", "program": "PROGRAM:=Q1: How long does it take to mine a bitcoin on a modern computer?=Q2: What is the ratio of processing power of ENIAC to that of a modern computer?=Q3: What is the processing speed of ENIAC?=Q4: What is the processing speed of a modern computer?=A1: 10 min=A2: 100000 cycles*sec**-1=A3: 740e+9 cycles*sec**-1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q4, Q3)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "74000000 min", "context": "CONTEXT:=F1: It takes 10 minutes to mine a bitcoin on a modern computer.=F2: The speed of ENIAC is 100000 cycles/sec=F3: The speed of a modern computer is 740e+9 cycles/sec"}, {"question": "What is the weight of a suitcase full of $1 coins?", "program": "PROGRAM:=Q4: What is the weight of a single 1 euro coin?=Q3: How many $1 coins could you fit inside a suitcase?=Q1: What is the average volume of a single suitcase?=Q2: What is the average volume of a 1 euro coin?=A1: 75000 cm**3=A2: 3.8 cm**3=A3: 7.5 gm=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div(Q1, Q2)=Q4 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "148026 g", "context": "CONTEXT:=F1: The average volume of a suitcase is 75000 cubic cm=F2: The average volume of a 1 euro coin is 3.8 cubic cm=F3: The weight of single one euro coin is 7.5 gm"}, {"question": "How much water is wasted in New York?", "program": "PROGRAM:=Q1: What is the population of New York?=Q2: What is the average water wastage by an American Citizen in a day?=A1: 8400000=A2: 25.7 gal=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "215880000 gal", "context": "CONTEXT:=F1: The population of New York is 8.4 million=F2: The average water wastage by an American Citizen in a day is 25.7 gallons"}, {"question": "How much TNT would it take to get a human on the moon?", "program": "PROGRAM:=Q1: What is the distance between earth and moon?=Q2: What is the approximate mileage provided by TNT?=A1: 384400 km=A2: 300 km*gal**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1281 gal", "context": "CONTEXT:=F1: The distance between earth and moon is 384400 km=F2: The approximate mileage provided by TNT is 300 km/gal"}, {"question": "How many musical notes are played on your favorite radio station in a given year?", "program": "PROGRAM:=Q1: How many musical notes are played in a day?=Q2: How many days are there in a year?=Q3: How many kinds of musical notes are present in a song?=Q4: What is the average number of songs played daily?=A1: 365=A2: 7=A3: 300=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul(Q3, Q4)=Q2 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "766500", "context": "CONTEXT:=F1: There are 365 days in a year=F2: There are 7 different types of musical notes in any song=F3: 300 songs are played on an average daily by a music station"}, {"question": "How many tiles are on a room's floor?", "program": "PROGRAM:=Q1: What is the surface area of a normal room?=Q2: What is the surface area of a single tile?=A1: 165 ft**2=A2: 1 ft**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "165", "context": "CONTEXT:=F1: The surface area of a room is 165 sq. ft=F2: The surface area of a single tile is 1 sq ft. (considering the tile is 12\" * 12\")"}, {"question": "How many sidewalk squares are in a block?", "program": "PROGRAM:=Q1: What is the average surface area of a block?=Q2: What is the average surface area of a single sidewalk square?=A1: 10 m**2=A2: 0.045 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "222", "context": "CONTEXT:=F1: The average surface area of a block 10 metre square.=F2: The average surface area of a single sidewalk square is 0.045 metre square."}, {"question": "How many pizzas are eaten by our class in one year?", "program": "PROGRAM:=Q1: How many months are there in a year?=Q2: What is the total pizza consumption by the class in a month?=Q3: What is the frequency of ordering pizzas by the class students in a month?=Q4: What is the total pizza consumption on a single day by the entire class?=Q5: What is the average class size?=Q6: How much pizza can a student eat in meal?=A1: 12=A2: 4=A3: 21=A4: 0.5=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "504", "context": "CONTEXT:=F1: There are 12 months in a year.=F2: The frequency of ordering pizzas is 4 times a month.=F3: The average size of the class is 21,=F4: The average student can eat 3 slices i.e 0.5 pizza in one sitting."}, {"question": "How long would it take to completely drain the Mediterranean Sea?", "program": "PROGRAM:=Q1: What is the volume of the Mediterranean sea?=Q2: What is the rate at which water flows out of the Mediterranean sea?=A1: 439000 km=A2: 4.4 km*hour**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "99772 hours", "context": "CONTEXT:=F1: The total volume of Mediterranean Sea is 439000 km cube=F2: The rate at which waters flows in a typical sea is 6.4 kmph"}, {"question": "How long would our class have to save to buy a car?", "program": "PROGRAM:=Q1: What is the average cost of a car in the US?=Q2: What is the total amount saved by students in a class each year?=Q3: How many students are there in a class?=Q4: How much money does an average student in America save each year?=A1: $40000=A2: 21=A3: $1000 year ** -1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul(Q3, Q4)=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "2 years", "context": "CONTEXT:=F1: The average price of a car in the US is $40000=F2: The average classroom size in the US is 21 students per class.=F3: Considering an average american saves around $1000 each year."}, {"question": "How hot does the superhero, the human torch, have to be to evaporate bullets in flight?", "program": "PROGRAM:=Q1: What is the temperature required to evaporate the bullets?=Q2: How many cables are there in the world?=A1: 1500 degree C=A2: 100 degree C=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Add (Q1, Q2)", "answer": "1600 degree C", "context": "CONTEXT:=F1: The boiling points of bullets is 1500 degree C=F2: We are assuming the temperature of the Human Torch to be at least 100 degree F more than the boiling point of bullets."}, {"question": "How many grains of rice are in a 5 poundsbag?", "program": "PROGRAM:=Q1: What is the mass of the bag given?=Q2: What is the mass of the single grain of rice?=A1: 5 lb=A2: 0.0002lb=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "25000", "context": "CONTEXT:=F1: The mass of the bag given is 5lb=F2: The mass of the single grain of rice is 0.0002lb"}, {"question": "What wind speed would be required to blow my car off the road?", "program": "PROGRAM:=Q1: What is the force exerted by the car on the road by the virtue of gravity?=Q2: What is the force exerted by the wind travelling by 1 metre per hour?=A1: 15000 N=A2: 4.6e-4 N*hour*m**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "3.2e+7 m*hour**-1", "context": "CONTEXT:=F1: The force exerted by the car on the road by the virtue of gravity is 15000 N=F2: The force exerted by the wind travelling by metre per hour is 4.6e-4 N-hour/metre"}, {"question": "How much would it cost to buy one of every product sold in the world today?", "program": "PROGRAM:=Q1: Approximately, how many products are sold in the world today?=Q2: What is the cost of an average product sold in the world today?=A1: 3e+12=A2: $27=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$81000000000000", "context": "CONTEXT:=F1: Assuming Amazon sells all kinds of products that are there in the world right now, there are a total of 3e+12 products sold today.=F2: The average price of a product being sold in the world today is 27 USD"}, {"question": "How many people are airborne over the US at any given moment?", "program": "PROGRAM:=Q1: How many people are on air, at a given point of time?=Q2: What fraction of Earth does the USA constitute?=A1: 1270000=A2: 0.0187=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "23750", "context": "CONTEXT:=F1: At any given time, 1270000 people are on air.=F2: The fraction of Earth as USA is 1.87 %"}, {"question": "How long would it take for an STI with no symptoms and a 100% transmission rate to infect 99% of the world population?", "program": "PROGRAM:=Q1: What is the given world population?=Q2: At what exponential rate does the disease spread?=Q3: What is the percentage of the world population to be infected?=Q4: What is the total world population?=A1: 2=A2: 99=A3: 7.2e+9=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Log (Q1, Q2)", "answer": "32.7", "context": "CONTEXT:=F1: The disease spreads at the rate of 2 everyday given that a single person meets 2 different people everyday and the on the first day, the pilot carrier of the disease meets 2 people and then it starts spreading in the order of 1,2,4,8,2^n=F2: The percentage of world population to be infected is 99=F3: The total world population is 7.2e+9"}, {"question": "How long does it take for a new coastline to erode into a sandy beach?", "program": "PROGRAM:=Q1: What percent of the coastline erodes into sandy beaches every year?=Q2: What is the total percentage of the sandy beach eroded by the coastline after a few years?=A1: 3 year**-1=A2: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "33 years", "context": "CONTEXT:=F1: 3 percent of coastline erodes into a sandy beach every year.=F2: The total percentage of the sandy beach eroded by the coastline over the years is 100."}, {"question": "The moon is drifting away from Earth. In what year, approximately, will it no longer be visible to the naked eye?", "program": "PROGRAM:=Q1: What is the distance between moon and mars?=Q2: What is the rate at which the moon is drifting away?=A1: 766000 km=A2: 3.8e-5 km*year**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.01e+10 years", "context": "CONTEXT:=F1: The distance between moon and mars is 766000 km.=F2: The rate at which the moon is drifting away is 3.8e-5 km/year"}, {"question": "Based on what we know about the history of chickens, and the history of roads, about how long ago a chicken could have crossed a road?", "program": "PROGRAM:=Q1: Which year are we currently in?=Q2: When were cars first invented?=A1: 2012 years=A2: 1912 years=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "109 years", "context": "CONTEXT:=F1: The current year is 2021.=F2: Cars were first invented in 1912 and assuming the chicken was able to cross the road before the advent of cars (the first motor vehicles)."}, {"question": "What is the total area of all currently existing spiderwebs in the world?", "program": "PROGRAM:=Q1: How many spiders are there in the world?=Q2: What is the total area of the spider webs made by a single spider?=Q3: On an average, how many spider webs does a single spider weave?=Q4: What is the average area of a single spider web?=A1: 1.4e+17=A2: 30=A3: 0.28 m**2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.1e+18 m**2", "context": "CONTEXT:=F1: The total number of spiders in the world is 1.4e+17.=F2: An average spider makes a total of 30 webs per year.=F3: The average area of a single spider web is 0.28 metre square."}, {"question": "How much paper is used at our school each week?", "program": "PROGRAM:=Q1: How many days are there in a week?=Q2: What is the total paper consumption in the school in a day?=Q3: How many students does a school have in total?=Q4: How many pages does a single student use in a day?=A1: 7=A2: 516=A3: 40=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "144480", "context": "CONTEXT:=F1: There are 7 days in a week.=F2: There are 516 students in a school.=F3: An average student uses 40 pages per day"}, {"question": "What is the weight of a medieval broad sword?", "program": "PROGRAM:=Q1: What is the density of the material that makes up the broad sword?=Q2: What is the volume of broadswords?=A1: 8050 kg*m**-3=A2: 6e-4 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4.83 kg", "context": "CONTEXT:=F1: There density of the material that makes up the broad sword is 8050kg/m**3=F2: The volume of broadsword is 6e-4 m**3"}, {"question": "How much does a tornado weigh?", "program": "PROGRAM:=Q1: What is the volume of water in an average Tornado?=Q2: What is the density of water?=A1: 3650 m**3=A2: 1000 kg*m**-3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3.65e+6 kg", "context": "CONTEXT:=F1: The volume of water in an average Tornado is 3650 metre cube.=F2: The density of water is 1000 kg/metre cube"}, {"question": "How many songs contain the lyrics \"baby\"?", "program": "PROGRAM:=Q1: How many songs have been released until now?=Q2: What percent of songs contain the term - baby?=A1: 150e+6=A2: 0.0017=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "255000", "context": "CONTEXT:=F1: A total of 150e+6 songs have been released till now.=F2: Around 0.17% of songs contain the term baby?"}, {"question": "How much room-temperature water do I need to drink per day to suppress my 37.78 degrees Celsius fever by 0.5 degrees Celsius (by carrying heat away when it leaves my body), assuming my metabolism stays at the average adult male baseline?", "program": "PROGRAM:=Q1: Drinking what quantity of water would decrease the body temperature by 0.1 degree?=Q2: How many degrees of temperature is to be lowered?=A1: 10 L/degree=A2: 0.5 degree=Q2 -> A2| F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5L", "context": "CONTEXT:=F1: Drinking 10 L of water would compensate for the cooling effect caused by an increase in body temperature by 1 degree C.=F2: 0.5 degree of temperature is to be lowered."}, {"question": "How many post its would it take to completely cover a cessna 172?", "program": "PROGRAM:=Q1: What is the volume of a single Cessna 172?=Q2: What is the volume of a single post-it sheet?=A1: 248 m**3=A2: 0.007 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "35428", "context": "CONTEXT:=F1: The volume of a single Cessna 172 is 248 cubic metre=F2: The volume of a single post-it sheet is 0.007 cubic metre"}, {"question": "What percentage of airplane passengers are first-time fliers?", "program": "PROGRAM:=Q1: On an average, how many people on the flight are not familiar with typing their seat belts?=Q2: What is the average capacity of a commercial flight?=Q3: What is the fraction of people who struggle to tie their seatbelts?=A1: 40=A2: 270=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=P: Mul(Q3, 100)", "answer": "15%", "context": "CONTEXT:=F1: Around 40 people struggle to tie their seat belts on every flight.=F2: The average capacity of a commercial flight is 270."}, {"question": "How many hairs on your head?", "program": "PROGRAM:=Q1: What is the total surface area of your head?=Q2: How many hairs does our head have on an area of a square inch?=A1: 78.5 in**2=A2: 1400 in**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "109900", "context": "CONTEXT:=F1: Considering our head to be a half sphere with radius 2.5, the surface area is 78.5 sq. inch=F2: The average number of hairs on a sq. inch covered area is 1400"}, {"question": "How many graduates, people holding first university degrees, do we produce in our country?", "program": "PROGRAM:=Q1: How many universities are there in the USA?=Q2: What is the average freshman intake of a university in the USA?=A1: 5300=A2: 550=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5.20E+06", "context": "CONTEXT:=F1: The number of universities in the US is 5300=F2: An average intake of freshman at a university is 550"}, {"question": "By how many degrees does the average human body increase the temperature of an average room?", "program": "PROGRAM:=Q1: What is the average body temperature?=Q2: What is the average room temperature?=A1: 36.9 degree=A2: 23.6 degree=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "13.3 degree", "context": "CONTEXT:=F1: The average body temperature is 36.9 degree celsius.=F2: The average room temperature is 23.6 degree celsius."}, {"question": "How many water droplets make up a cumulus clouds?", "program": "PROGRAM:=Q1: What is the volume of water content in cumulus clouds?=Q2: What is the volume of a single droplet of water?=A1: 1000000000 m**3=A2: 0.000000050 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.00E+16", "context": "CONTEXT:=F1: The water content in cumulus clouds is 1000000000 cubic metre=F2: The volume of a single droplet of water is 0.000000050 cubic metre"}, {"question": "If the earth heats up by 0.5 degrees, how much energy is saved during winters?", "program": "PROGRAM:=Q1: How much energy is required to heat up the earth by 0.5 degrees?=Q2: What is the average energy usage around the world during winters?=A1: 1e+21 J=A2: 1.5e+16 J=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "9.9e+20 J", "context": "CONTEXT:=F1: Around e+21 Joules are required to heat the earth by 0.5 degrees.=F2: The average value of coins thrown in by visitor in Trevi Fountain is 0.04 euros (it is collected and distributed to local poor people every day)"}, {"question": "How tall would someone have to be to be able to run around the globe at average stride in 6 minutes?", "program": "PROGRAM:=Q1: What is the time limit to run around the globe?=Q2: What is the product of the average time taken to cover the globe and the average height of a person?=Q3: What is the average time taken by a person to run around the globe?=Q4: What is the height of an average person?=A1: 6 min=A2: 400750 min=A3: 170 cm=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "11354583.3 cm", "context": "CONTEXT:=F1: The time limit to run around the globe is 6 minutes.=F2: The average time taken to run around the globe at an average stride is 400750 minutes.=F3: The height of an average person is 170 cm. (Given the height and time taken to cover the earth are inversely proportional to each other)"}, {"question": "What is the minimum amount of total force required by hand in order to get it to close to a point from an open position?", "program": "PROGRAM:=Q1: What is the mass of the forearm?=Q2: What is the acceleration of the forearm during the movement of closing a point?=A1: 1kg=A2: 5 m*s**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5 kg*m*s**-2", "context": "CONTEXT:=F1: The mass of the forearm is 1 kg.=F2: The acceleration of the forearm during the movement of closing a point is 5 m*s***-2"}, {"question": "How many trout would it take to pull a houseboat?", "program": "PROGRAM:=Q1: What is the average force exerted by a household boat to the ground while at rest?=Q2: What is the average force put in by single trout?=A1: 50000N=A2: 100N=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "500", "context": "CONTEXT:=F1: The average force exerted by a household boat to the ground while at rest is 50000 N=F2: The average force exerted by a single trout is around 100 N (assumption)"}, {"question": "How many snowflakes would it take to completely cover a driveway?", "program": "PROGRAM:=Q1: What is the surface area of an average driveway?=Q2: What is the average surface area of a single snowflake?=A1: 800 ft**2=A2: 0.008 ft**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "100000", "context": "CONTEXT:=F1: The average surface area of a driveway is 800 sq. ft=F2: The average surface area of a snowflake is 0.008 sq ft."}, {"question": "For a cup of uncooked rice, what fraction of the cup is air?", "program": "PROGRAM:=Q1: What is the mass of the cup full of rice?=Q2: What is the mass of the single cup of rice?=Q3: What fraction of rice is there in the cup?=Q4: What is the total sum that the fraction of air and fraction of rice sum up to?=A1: 200=A2: 250=A3: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=Q4 -> A3 | F3=P: Sub (Q4, Q3)", "answer": "0.2", "context": "CONTEXT:=F1: The mass of a cup of rice is 200g.=F2: The mass of the single cup is 250g.=F3: The value that fraction of air and fraction of rice sum up to is 1 and fraction of air is 1 minus the fraction of rice. (both are complimentary to each other.)"}, {"question": "How much land is required to rehabilitate 10 million refugees?", "program": "PROGRAM:=Q1: How many refugees are to be rehabilitated?=Q2: What is the average 1BHK area size in the USA?=A1: 1e+7=A2: 450 ft**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4500000000 ft**2", "context": "CONTEXT:=F1: 1e+7 refugees are to be rehabilitated.=F2: What is the average 1BHK area size in the USA is 450 sq.ft"}, {"question": "How many bacteria would it take to make them visible to the naked eye?", "program": "PROGRAM:=Q1: What is the minimum possible size that is visible to the naked eye?=Q2: What is the average size of a bacteria?=A1: 1e-4 m=A2: 1e-6 m=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "100", "context": "CONTEXT:=F1: The minimum possible size visible to human eye is 1e-4 m=F2: The average size of a bacteria is 1e-6 m"}, {"question": "How large a landfill would our county need to store 100 years of garbage?", "program": "PROGRAM:=Q1: How much area would a typical annual garbage collection spread across the landfill of our country?=Q2: How many year's worth garbage collection is to be stored together?=A1: 125663 meters**2=A2: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "12566300 meters**2", "context": "CONTEXT:=F1: The area taken up by the annual garbage dump collection is 125663 sq. m=F2: We need to store 100 years worth of Garbage collection together."}, {"question": "During the time interval of a blink, how many km has light traveled in a vacuum?", "program": "PROGRAM:=Q1: What is the time interval of a blink?=Q2: What is the speed of light?=A1: 0.1 s=A2: 300000 km*s**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "30000 km", "context": "CONTEXT:=F1: The time interval of a blink is 0.1 sec=F2: The speed of sound is 300000 km/sec"}, {"question": "How many helium balloons do I need to make plush toy float?", "program": "PROGRAM:=Q1: What is the average mass of a plush toy?=Q2: How much mass can a normal helium balloon withhold?=A1: 150 g=A2: 15 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "10", "context": "CONTEXT:=F1: The average mass of a plush toy is 150 grams=F2: A single helium balloon can withstand an average mass of 15 grams"}, {"question": "How many children are needed to have a mass the same as an elephant?", "program": "PROGRAM:=Q1: What is the average mass of an Elephant?=Q2: What is the average mass of a child?=A1: 4200 kg=A2: 25 kg.=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "168", "context": "CONTEXT:=F1: The average mass of an Elephant is 4200 kg.=F2: The average mass of a child is 25 kg."}, {"question": "How many pizzas were eaten last year in the U.S.?", "program": "PROGRAM:=Q1: How many pizzas does an average human eat each year in the US?=Q2: What is the population of US=A1: 6=A2: 348200000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "2089200000", "context": "CONTEXT:=F1: An average person in the US eats around 6 pizzas per year.=F2: The population of the US is 348200000"}, {"question": "How many beads would it take to make a bracelet that fits perfectly on my wrist?", "program": "PROGRAM:=Q1: What is the length of the bracelet that fits you when stretched out?=Q2: What is the diameter of a single beed?=A1: 15 cm=A2: 0.5 cm=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "30", "context": "CONTEXT:=F1: The length of the bracelet when stretched out is 15 cm=F2: The diameter of a single bead is 0.5 cm"}, {"question": "What is the mass (grams) of a water molecule?", "program": "PROGRAM:=Q1: What is the density of a water molecule?=Q2: What is the volume of a single water molecule?=A1: 997000 g*m**-3=A2: 3e-23 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "3e-17 g", "context": "CONTEXT:=F1: The density of a water molecule is 997000 g/cubic metre=F2: The volume occupied by a single molecule is 3e-23 metre cube"}, {"question": "How does Earth's age compare to the rest of the galaxy?", "program": "PROGRAM:=Q1: What is the age of the Earth?=Q2: What is the age of the Milky Way Galaxy?=A1: 4.5e+9 years=A2: 13.5e+9 years=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q2, Q1)", "answer": "9e+9 years", "context": "CONTEXT:=F1: The age of the Earth is 4.5e+9 years.=F2: The age of the Milky Way Galaxy is 13.5e+9 years."}, {"question": "How many pairs of M&Ms with the exact same M&M colors exist out there, taking into account every M&M bag ever sold?", "program": "PROGRAM:=Q1: How many M&Ms have been sold till now?=Q2: What is the chance of two M&Ms having the same colors?=A1: 10e+9=A2: 8.5e-6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "85000", "context": "CONTEXT:=F1: Around 10e+9 M&Ms have been sold till now=F2: The chance of two M&Ms having the same combination is 8.5e-6"}, {"question": "How many times has Tiger Woods swung a golf club in his life?", "program": "PROGRAM:=Q1: How many matches had Tiger Woods played in his entire career?=Q2: What is the average number of times a golfer swings his golf club in a match and its preparation process?=Q3: How many times does an average golfer swing his golf club in a match?=Q4: What is the practice-match preparation ratio of Tiger Woods as a golfer?=A1: 368=A2: 15=A3: 10=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "55200", "context": "CONTEXT:=F1: Tiger Woods has played a total of=F2: An average golfer swings his club around 15 times in a match.=F3: The practice-match preparation of Tiger Woods is 25"}, {"question": "How many dump trucks would it take to cart away Mount Everest?", "program": "PROGRAM:=Q1: What is the total volume of Mount Everest?=Q2: What is the total volume of a single dump truck?=A1: 2100000000000 ft**3=A2: 3180 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "660377358", "context": "CONTEXT:=F1: The total volume of the Mount Everest is 2100000000000 cubic ft=F2: The average volume of a single dump truck is 3178.32 cubic ft."}, {"question": "How much sunlight can be deflected to stop global warming?", "program": "PROGRAM:=Q1: What is the current forcing due to greenhouse gases estimated at?=Q2: What is the top of atmosphere incident solar radiation?=A1: 3 W*m**-2=A2: 1360 W*m**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "0.0022", "context": "CONTEXT:=F1: The current forcing due to greenhouse gases estimated at 3 W/sq. m=F2: The top of atmosphere incident solar radiation is 1360 W/sq. m"}, {"question": "What is the volume (cubic miles) of the earth?", "program": "PROGRAM:=Q1: What is the radius of the Earth?=Q2: What is the relations between radius and volume of a sphere?=Q3: What is the cube of the radius of earth?=A1: 4=A2: 3=A3: 4000 miles=Q1 -> A3 | F1=Q3 -> Pow (Q1, 3)=Q2 -> A1 | F2=P: Mul(Q2, Q3)", "answer": "256000000000 miles**3", "context": "CONTEXT:=F1: The radius of Earth is 4000 miles=F2: The volume of a sphere is 4 times the radius cube.=F3: The cube of the radius of earth is radius powered to 3"}, {"question": "How many pencils would it take to draw a straight line along the entire Prime Meridian of the earth?", "program": "PROGRAM:=Q1: What is the length of the Prime Meridian of the Earth=Q2: What is the distance written by a single pencil before getting completed?=A1: 20000 km=A2: 56 km=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q1, Q2)", "answer": "357", "context": "CONTEXT:=F1: The length of Prime Meridian is 20000 km=F2: The average distance written by a single pencil before getting completed is 56 km"}, {"question": "What is the average distance, m, between pigment particles in a paint film?", "program": "PROGRAM:=A1: 10e-5 m=P: A1 | F1", "answer": "10e-5 m", "context": "CONTEXT:=F1: The average distance between pigment particles in paint film is 10e-5 m [assumption]"}, {"question": "How loud must a sound be at its origin to be heard 100 feet (34.5 metres) away at low volume (0 dB).", "program": "PROGRAM:=A1: 40 dB=P: A1 | F1", "answer": "40 dB", "context": "CONTEXT:=F1: The minimum intensity a sound can be heard at 100 ft is when the source is playing at 40 dB."}, {"question": "How long would a black hole with the mass of earth take to consume the sun?", "program": "PROGRAM:=Q1: How long would it take for earth to fall into a blackhole of its own mass?=Q2: What is the ratio of the mass of the sun to the mass of earth?=Q3: What is the mass of sun?=Q4: What is the mass of earth?=A1: 15 min=A2: 2e+30 kg=A3: 6e+24 kg=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5e+6 min", "context": "CONTEXT:=F1: It takes around 15 minutes for a blackhole of earth's size to consume all of earth.=F2: The mass of sun is 2e+30 kg=F3: The mass of earth is 6e+24 kg"}, {"question": "Approximately how much explosive yield would 5,623kg of Plutonium-238 create?", "program": "PROGRAM:=Q1: What is the mass of the particle?=Q2: What is the square of the velocity?=Q3 :What is the velocity?=Q4: What is the numerical factor to get the square of a number?=A1: 5623 kg=A2: 3e+8 m*s**-1=A3: 2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Pow (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5.06e+20 kg*m**2*s**-2", "context": "CONTEXT:=F1: The mass of the particle is 5623 kg=F2: The velocity is 3e+8 m/s=F3: The numerical factor to get the square of a number is 2"}, {"question": "Instead of adding and subtracting your checkbook transactions by the penny, you rounded up or down to the nearest dollar; how far off would your balance be after 6 months?", "program": "PROGRAM:=Q1: What is the total values of pennies lost as a part of rounding off to the nearest dollar?=Q2: What is the total value of pennies gained as a part of rounding off to the nearest dollar?=Q3: What is the average penny lost per transaction?=Q4: What is the total count of transactions in 6 months?=Q5: What is the average penny gained per transaction?=Q6: What is the total count of transactions in 6 months?=Q7: How many transactions take place in a month?=Q8: What is the total time duration mentioned?=Q9: What is the net difference in pennies?=Q10: How many pennies is one dollar?=A1: 10=A2: 20=A3: 3000=A4: 6=A5: 100=Q8 -> A4 | F4 =Q7 -> A3 | F3=Q4 -> Mul (Q7, Q8)=Q3 -> A1 | F1=Q1 -> Mul (Q3, Q4)=Q8 -> A4 | F4=Q7 -> A3 | F3=Q6 -> Mul (Q7, Q8)=Q5 -> A2 | F2=Q2 -> Mul (Q5, Q6)=Q9 -> Sub (Q2, Q1)=Q10 -> A5 | F5=P: Div (Q9, Q10)", "answer": "1800", "context": "CONTEXT:=F1: The average penny lost per transaction is 10.=F2: The average penny gained per transaction is 20.=F3: Around 3000 transactions take place in a month.=F4: The total time duration mentioned is 6 months.=F5: 100 pennies is 1 dollar."}, {"question": "How many shirts we need to feel warm on Pluto?", "program": "PROGRAM:=Q1: How cool is Pluto when compared to earth?=Q2: How many shirts do we need to feel warm on earth?=A1: 500=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1000", "context": "CONTEXT:=F1: Compared to earth, pluto is 500x cooler than earth.=F2: We need 2 shirts to feel warm on earth."}, {"question": "What is the volume of the Moon in cubic meters?", "program": "PROGRAM:=Q1: What is the mass of the moon?=Q2: What is the density of the moon?=A1: 7.3e+25 g=A2: 3.34 g*m**-3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2.18e+25 m** 3", "context": "CONTEXT:=F1: The mass of the moon is 7.3e+25 grams.=F2: The density of moon is 3.34 grams per metre cube"}, {"question": "How much water can humanity store in new dams or by flooding lowlands in an effort to combat melting of the polar ice sheet?", "program": "PROGRAM:=Q1: What is the volume of water present in the polar ice sheets?=Q2: What is the total capacity of dams in the world?=Q3: What is the average capacity of a dam?=Q4: How many new dams are there in the world?=A1: 3.33e+6 mi**3=A2: 8.3 mi**3=A3: 3700=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "0.009", "context": "CONTEXT:=F1: The total volume of polar ice sheets is 3.33e+6 mi**3=F2: The average capacity of a dam is 8.3 mi**3=F3: There are 3700 new dams in the world being constructed."}, {"question": "How many USA residents are legally prohibited from buying guns?", "program": "PROGRAM:=Q1: How many convicts and felons live in the US?=Q2: How many kids under 18 years are there in the US=A1: 5e+6=A2: 74.2e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Add (Q1, Q2)", "answer": "7.92E+07", "context": "CONTEXT:=F1: The number of felons and convicts in the US is around 5 million.=F2: 74.2e+6 under 18 kids are there in the USA"}, {"question": "What is the cumulative budget of US police forces?", "program": "PROGRAM:=Q1: What is the number of different police forces present in the US?=Q2: What is the average budget of a US police force?=A1: 17895=A2: 11.2e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$200e+9", "context": "CONTEXT:=F1: The number of different police forces in the US is 17895.=F2: The average budget of a single department is 11.2e+6 USD."}, {"question": "how fast would you have to be moving to make it from one side of the Earth to the other in 0.3 seconds?", "program": "PROGRAM:=Q1: What is the distance to be travelled?=Q2: What is the time in which the said distance has to be travelled?=Q3: What is the circumference of Earth?=A1: 40075 km=A2: 0.3 s=Q2 -> A2 | F2=Q3 -> A1 | F1=Q1 -> Div (Q3, 2)=P: Div (Q1, Q2)", "answer": "66791 km*s**-1", "context": "CONTEXT:=F1: The circumference of Earth is 40075 km=F2: The time in which the distance has to be covered is 0.3 sec"}, {"question": "Estimate the number of TV sets in New York City.", "program": "PROGRAM:=Q1: How many residential properties are there in New York City?=Q2: What is the average number of TV sets in a single residential property in the USA?=A1: 761000=A2: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "761000", "context": "CONTEXT:=F1: The number of residential properties in New York City is 761000=F2: An average number of TV sets in a single residential property in the USA is 1."}, {"question": "The Ontario government decides that winter is too depressing and that what is really needed is to turn all of Lake Ontario into one giant mug of hot chocolate. Find the number of packets of hot chocolate powder required to make this much hot chocolate.", "program": "PROGRAM:=Q1: What is the volume of Lake Ontario?=Q2: How many packets does it take to make a hot chocolate of 1 cc?=A1: 1.64e+6=A2: 4000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "6.56E+09", "context": "CONTEXT:=F1: The volume of Lake Ontario is 1.64e+6 m**3=F2: It takes 4000 packets to make a hot chocolate of 1 meter cube"}, {"question": "If all but 1 million people on Earth died, how far (on average) would you have to walk to meet someone?", "program": "PROGRAM:=Q1: What is the land cover on earth?=Q2: What is the population alive after all of them have died?=Q3: What is the population density?=Q4: What is the relation between population density and distance between two people on Earth=A1: 501e+6 km**2=A2: 1e+6=A3: 1/2=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=Q4 -> A3 | F3=P: Pow(Q3, Q4)", "answer": "22.3 km", "context": "CONTEXT:=F1: The total land area on Earth is 501e+6 km square=F2: The population given is 1e+6=F3: Considering people to be in the midpoint of their areas (assuming to be squares), so they have to travel the length of their square to reach another person."}, {"question": "If all of the Earth's oceans were transported to the Moon, what would be the average depth, in meters, of the lunar ocean?", "program": "PROGRAM:=Q1: What is the volume of the oceans?=Q2: What is the surface area of the moon?=A1: 1.4e+18 m**3=A2: 3.8e+13 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "36742 m", "context": "CONTEXT:=F1: The total volume of Earth's oceans is 1.4e+18 cubic meters=F2: the surface area of the moon is: 3.8e+13 meter square"}, {"question": "How many unique names will we encounter in our lifetime?", "program": "PROGRAM:=Q1: How many people do we meet in a lifetime?=Q2: What is the possibility of a person meeting another person with a name he hasn't encountered yet.=A1: 10000=A2: 0.85=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "8500", "context": "CONTEXT:=F1: We meet around people in a lifetime.=F2: The possibility of a person meeting another person with a name he hasn't encountered yet is"}, {"question": "How much land would be needed if each family had a house and a yard?", "program": "PROGRAM:=Q1: How many families are there in the world?=Q2: How much land is required to build a house with a yard?=Q3: What is the total human population?=Q4: What is the average family size?=A1: 360 yard**2=A2: 7.2e+9=A3: 4=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "6.48e+11 yard**2", "context": "CONTEXT:=F1: Around 360 sq. yards is required to build a house with a yard.=F2: The total human population is 7.2e+9=F3: the average family size is 4"}, {"question": "A breakfast cereal, similar to Cheerios, is composed of small oat cylinders, 1 cm dia., 4 mm high with a 4 mm diameter hole bored through. Estimate the mass, g, of one cylinder.", "program": "PROGRAM:=Q1: What is the density of the cereal ingredient?=Q2: What is the volume of the cheerio?=Q3: What is the exterior volume of the cheerio?=Q4: What is the interior volume of the cheerio?=Q5: What is the exterior diameter square?=Q6: What is the interior diameter square?=Q7: What is the height of the cheerio?=Q8: What is the relationship between the height and radius for the volume?=Q9: What is the exterior diameter?=Q10: What is the interior diameter?=Q11: What is the relation between exterior diamter and it square?=Q12: What is the relation between interior diamter and it square?=A1: 0.14g*cm**-3=A2: 1 cm=A3: 0.4 cm=A4: 0.4 cm=A5: 2=A6: 2=Q12 -> A6 | F7=Q10 -> A3 | F3=Q6 -> Pow (Q10, Q12)=Q11 -> A5 | F6=Q9 -> A2 | F2=Q5 -> Pow (Q9, Q11)=Q7 -> A4 | F4 & F5=Q4 -> Mul (Q7, Q6)=Q7 -> A4 | F4 & F5=Q3 -> Mul (Q7, Q5)=Q2 -> Sub (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.047 g", "context": "CONTEXT:=F1: The density of cereal ingredient is 0.14 g/cc=F2: The exterior diameter is 1 cm=F3: The interior diameter is 0.4 cm=F4: The height of the cheerio is 0.4 cm=F5: The volume of the cylinder is the product of diameter square and height.=F6: What is the relation between exterior diamter and it square is 2.=F7: What is the relation between interior diamter and it square is 2."}, {"question": "What would the file size be on an hour of 22.4.8 surround sound audio?", "program": "PROGRAM:=Q1: How many channels are there in a 22.4.8 surround sound audio?=Q2: What is the data loaded on one channel when it runs for an hour?=Q3: How many bytes of data are generated in a single sample?=Q4: How many samples are generated in an hour?=Q5: How many minutes are there in an hour?=Q6: How many samples are generated in a minute?=A1: 32=A2: 2 bytes=A3: 60 min=A4: 2646000 min**-1=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "10e+9 bytes", "context": "CONTEXT:=F1: There are 32 channels in a 22.4.8 surround sound audio.=F2: 2 bytes of data is generated for a single sample.=F3: There are 60 minutes in an hour.=F4: 2646000 samples are generated in one minute."}, {"question": "How much blood would it take to stain the ocean red?", "program": "PROGRAM:=Q1: What is the average volume of an ocean?=Q2: What is the ratio of blood to water that would make the ocean stain red?=A1: 5e+23 L=A2: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5e+23 L", "context": "CONTEXT:=F1: The volume of an average ocean is 5e+23 L=F2: The ratio of blood to water ratio to make the ocean stain red is 1:1"}, {"question": "Out of all songs ever recorded, what percentage of songs are in the time signature 4/4?", "program": "PROGRAM:=Q1: How many songs have been recorded till now with the time signature 4/4?=Q2: How many songs have been recorded till now?=Q3: What fraction of songs are in the time signature 4/4?=A1: 33e+6=A2: 97e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=P: Mul (Q3, 100)", "answer": "34", "context": "CONTEXT:=F1: Roughly 33e+6 songs have the timestamp 4/4. (estimate)=F2: A total of 97e+6 songs have been recorded till now."}, {"question": "What percentage of the oxygen we breath is from plants that we didn't plant?", "program": "PROGRAM:=Q1: What is the total percentage of air contributed by forests?=Q2: What is the total percentage of air contributed by oceanic plants?=A1: 28=A2: 70=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Add (Q2, Q1)", "answer": "98%", "context": "CONTEXT:=F1: Forests produce 28% of the total oxygen.=F2: Oceanic plants produce 70% of the total oxygen.=F3: Assuming, oceanic plants and forests are not planted by humans and occur naturally."}, {"question": "How many metres of spaghetti would be needed if all of the children in a school had spaghetti bolognese for lunch?", "program": "PROGRAM:=Q1: How meters of spaghetti is there in a single meal on an average=Q2: How many children are there in the school?=Q3: How many noodle threads are in a single bowl of spaghetti?=Q4: What is the average length of noodle thread after cooking?=A1: 516=A2: 200=A3: 0.4 m=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "41280 m", "context": "CONTEXT:=F1: There are 516 students in the school.=F2: There are approximately 200 noodle threads in a single bowl of spaghetti.=F3: The average length of a noodle thread after cooking is 0.4 m"}, {"question": "How much popcorn is popped at the movie theater on an average Saturday?", "program": "PROGRAM:=Q1: What is the total number of people buying a popcorn box on an average saturday?=Q2: How many popcorns get popped each saturday?=Q3: How many popcorns are present in a single box?=Q4: How many popcorns are popped for each popcorn served?=A1: 800=A2: 50=A3: 1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "40000", "context": "CONTEXT:=F1: The average number of people buying popcorn on a saturday is around 800=F2: There are an average of 50 popcorns in a single box.=F3: There is 1 popcorn popped, for each popcorn served?"}, {"question": "How many pencils would it take to draw a straight line along the entire Prime Meridian of the Earth?", "program": "PROGRAM:=Q1: What is the length of the Prime Meridian of the Earth=Q2: What is the distance written by a single pencil before getting completed?=A1: 20000 km=A2: 56 km=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div (Q1, Q2)", "answer": "357", "context": "CONTEXT:=F1: The length of Prime Meridian is 20000 km=F2: The average distance written by a single pencil before getting completed is 56 km"}, {"question": "How many calories are you consuming licking the Cheetos dust off your fingers per serving?", "program": "PROGRAM:=Q1: How many calories are there in a single Cheetos ball?=Q2: What is the Cheetos dust accumulated on the fingers in terms of Cheetos Balls?=A1: 2 cal=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4 cal", "context": "CONTEXT:=F1: The calories present in a single Cheetos ball are 2 cal=F2: The dust accumulated on the fingers in terms of Cheetos balls is 2 balls."}, {"question": "What is the CO2 emissions from the creation of GPT-3, the deep net of unprecedented size that can write Javascript and finish your GoT fan fiction?", "program": "PROGRAM:=Q1: What is the energy used in creating the GPT model?=Q2: What is the CO2 emissions produced by 1 kWh of energy?=A1: 190000 kWh=A2: 0.5 kg/kWh=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "85000 kg", "context": "CONTEXT:=F1: The energy used in creating the GPT model is 190000 kWh.=F2: The CO2 generated by 1kWh of energy is 0.5 kg/kWh"}, {"question": "Estimate the number of cars entering the state of New York at any given time.", "program": "PROGRAM:=Q1: How many entrances does the state of New York have?=Q2: How many cars are present at a single entrance at any given instance?=Q3: How many lanes does a single entrance have?=Q4: At any given instant, how many cars can enter the city in the same lane?=A1: 28=A2: 8=A3: 1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "224", "context": "CONTEXT:=F1: The state of New York has 28 land entrances.=F2: Each entrance has a total of 8 lanes.=F3: At a given instant only 1 car can enter the city through a lane"}, {"question": "The deficit in the Federal Budget this past year was approximately $100 Billion. Assuming this was divided equally to every man, woman, and child in the country, what is your share of the debt?", "program": "PROGRAM:=Q1: What is the total debt?=Q2: What is the approximate population of the US?=A1: 100=A2: 0.33=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "$303", "context": "CONTEXT:=F1: The total debt is 100 Billion USD=F2: The approximate population of the US is 0.33 billion"}, {"question": "A human in a 2 square metre \"box\" - how big does a hole have to be to bring enough oxygen in?", "program": "PROGRAM:=Q1: How much oxygen does a human breathe in a minute?=Q2: How much air does a hole of 1 cm**2 allows every minute?=A1: 7 L=A2: 0.5 L/cm**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "14 cm**2", "context": "CONTEXT:=F1: An average human breathes 7 litres of oxygen per minute=F2: A hole of area 1 cm**2 facilitates a supply of 0.5 L of air approximately every minute."}, {"question": "How much energy is required to completely destroy the earth?", "program": "PROGRAM:=Q1: What is the numerical coefficient for calculating the gravitational self energy of earth?=Q2: What is the gravitational self energy of earth?=Q3: What is the gravitational constant of earth?=Q4: What is the product of the square of the mass and inverse of radius?=Q5: What is the square of the mass of the earth?=Q6: What is the radius of the earth?=Q7: What is the mass of the earth?=Q8: What is the numerical coefficient to calculate the square of the radius?=A1: 6.6e-11 m**3kg**-1*s**-2=A2: 6e+24 kg=A3: 6.3e+6 m=A4: 3/5=A5: 2=Q8 -> A5 | F5=Q7 -> A2 | F2=Q5 -> Pow (Q7, Q8)=Q6 -> A3 | F3=Q4 -> Div (Q5, Q6)=Q3 -> A1 | F1=Q2 -> Mul ( Q3, Q4)=Q1 -> A4 | F4=P: Mul (Q1, Q2)", "answer": "22.6e+31 m**2*kg*s**-2", "context": "CONTEXT:=F1: The gravitational constant of earth is 6.6e-11 m**3*kg**-1*s**-2=F2: The mass of earth is 6e+24 kg=F3: The radius of earth is 6.3e+6 m=F4: The numerical coefficient in gravitational self energy is \u2157=F5: The numerical coefficient to calculate the square of the radius is 2."}, {"question": "If a lemon can be made into a battery, could lemons jump start a car?", "program": "PROGRAM:=Q1: What is the power required to jump start a car?=Q2: How much power can be provided by a single lemon?=A1: 500 amp=A2: 0.00024 amp=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "2083333", "context": "CONTEXT:=F1: The power required to jump start a car is 500 amp.=F2: An average lemon can produce 0.00024 amps."}, {"question": "How much of the Great Lakes would be filled by fossil fuels extracted by humans?", "program": "PROGRAM:=Q1: What is the total volume of the fossil fuels extracted by humans?=Q2: What is the total volume of the Great Lakes?=A1: 0.004 miles**3=A2: 244106 miles**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.63E-08", "context": "CONTEXT:=F1: The total volume of the fossil fuels extracted by humans is 0.004 cubic miles=F2: The total volume of Great Lakes is 5400 cubic miles."}, {"question": "How many pages are there in all books that are read by children in our school in one year?", "program": "PROGRAM:=Q4: What is the average number of pages in children's books?=Q3: How many books are read by children in our school in one year?=Q1: What is the total number of students in a school?=Q2: How many books are read by a child on an average yearly?=A1: 516=A2: 30=A3: 32=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul (Q1, Q2)=Q4 -> A3 | F3=P: Mul (Q3, Q4)", "answer": "495360", "context": "CONTEXT:=F1: The average number of students in a school is 516.=F2: The number of books read by a child annually is 30.=F3: The average number of pages in a kid's book is 32."}, {"question": "How many stuffed animals would fit on a shelf?", "program": "PROGRAM:=Q1: What is the volume of a normal shelf?=Q2: What is the volume of a normal stuffed animal?=A1: 2560 in**3=A2: 420 in**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "6", "context": "CONTEXT:=F1: The average volume of a shelf is 2560 cubic inches=F2: The average volume of a normal stuffed animal is 420 cubic in"}, {"question": "How many snap cubes laid end to end would stretch across the room?", "program": "PROGRAM:=Q1: What is the length of a normal room?=Q2: What is the length of a snapcube?=A1: 28 ft=A2: 0.16 ft=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "175", "context": "CONTEXT:=F1: The length of a normal room is 28 feet.=F2: The length of a snap cube is 0.16 feet"}, {"question": "How many punctuation marks are in a book?", "program": "PROGRAM:=Q1: What is the average number of sentences present in a book=Q2: What is the average number of punctuations present in a sentence?=A1: 5000=A2: 3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "15000", "context": "CONTEXT:=F1: The average number of sentences present in a book is 5000=F2: The average number of punctuations present in a sentence is 3"}, {"question": "How far, in km, does light travel during the time between two full moons?", "program": "PROGRAM:=Q1: What is the speed of light in km/h=Q2: What is the duration between two full moons?=Q3: What is the time interval between two full moons?=Q4: How many hours do we have in a day?=A1: 1.079e+9 km*hour**-1=A2: 30=A3: 24 hours=Q4 -> A3| F3=Q3 -> A2| F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1| F1=P: Mul (Q1, Q2)", "answer": "8e+11 km", "context": "CONTEXT:=F1: The speed of light in kmph is 1.079e+9 kmph=F2: The time interval between two full moons is 30 days=F3: There are 24 hours in a single day."}, {"question": "How many baseballs are used during the course of the Major League season?", "program": "PROGRAM:=Q1: How many games are played in a single MLB season?=Q2: How many balls are used in one single MLB game?=A1: 2430=A2: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "243000", "context": "CONTEXT:=F1: 2430 games are played in a single MLB season.=F2: An average of 100 balls are used per MLB game."}, {"question": "Just how large would an object in geostationary orbit need to be in order to be visible from earth with the naked eye?", "program": "PROGRAM:=A1: 1000 m**3=P: A1 | F1", "answer": "1000 m**3", "context": "CONTEXT:=F1: ISS though looks like a small star, is visible from the earth with naked eye and its size is 1000 m**3"}, {"question": "If I donate a pint of blood, how many days will it take for my red cell count to return to normal?", "program": "PROGRAM:=Q1: How much blood is regained every day after the blood donation?=Q2: How much blood was donated by the person?=A1: 0.5 pint*day**-1=A2: 1 pint=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "2 days", "context": "CONTEXT:=F1: Around 0.5 pint of blood is regained every day after blood donation=F2: The person donated 1 pint of blood."}, {"question": "How much land would be needed to meet the energy demands of the US purely through solar energy?", "program": "PROGRAM:=Q1: What is the annual energy consumption of the US?=Q2: How many yards of land=A1: 100e+15 BTU=A2: 51 BTU*ft**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.9e+15 ft**2", "context": "CONTEXT:=F1: The annual annual energy consumption of the US is 100e+15 BTU=F2: A solar panel produces 51 BTU per square ft."}, {"question": "At the height of summer, what is the total mass of all the leaves grown on trees in New Hampshire?", "program": "PROGRAM:=Q1: How many trees are there in New Hampshire?=Q2: How many leaves does an average tree in New Hampshire in summer contain?=Q3: What fraction of leaves are lost during summer from a tree?=Q4: How many leaves are there on an average tree?=A1: 927e+6=A2: 0.5=A3: 50000=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.30E+13", "context": "CONTEXT:=F1: There are a total of 927e+6 live trees in New Hampshire.=F2: Around 0.5 of the total leaves are lost from a tree during summer.=F3: An average tree contains 50000 leaves."}, {"question": "How many American adults (age 25+) have zero first cousins AND neither of their parents are only-children?", "program": "PROGRAM:=Q1: How many american adults are present in the USA?=Q2: What percent of american adults have zero first cousins and neither of their parents are only-children?=A1: 190000000=A2: 0.05=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "9500000", "context": "CONTEXT:=F1: The total number of american adults is 190000000=F2: Around 5 percent of american adults have zero first cousins and neither of their parents are only-children. [assumption]"}, {"question": "Roughly how much would it cost per person to provide free food to everyone per day?", "program": "PROGRAM:=Q1: What is the average meal cost borne by a person?=Q2: How many meals are there in a day?=A1: $12=A2: 3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "$36", "context": "CONTEXT:=F1: The average meal cost in the US is 12 USD.=F2: An average human takes around 3 meals a day."}, {"question": "How many years should one smoke one cigarette a day to be affected as much as living in Bangkok for 10 years?", "program": "PROGRAM:=Q1: What is the amount of residual smoke accumulated in a person's lungs after smoking for a year?=Q2: What is the amount of residual smoke accumulated in a person's lungs after staying in Bangkok for 10 years?=A1: 1.2e-2 g/year=A2: 1 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "83.3 years", "context": "CONTEXT:=F1: The amount of residual smoke accumulated in a person's lungs after smoking for a year is 1.2e-2 g.=F2: The amount of residual smoke accumulated in a person's lungs after staying in Bangkok for 10 years is 10 g (wrt AQI 175 of Bangkok)"}, {"question": "If all of the cars in the U.S. got at least 25 miles per gallon, how many tons of CO2 would not be produced via this fuel saving?", "program": "PROGRAM:=Q7: How much CO2 is produced by a gallon of gas?=Q6: If all of the cars in the U.S. got at least 25 miles per gallon, how many gallons of gas would be saved this year?=Q1: What is the total fuel consumption of cars in the US if the mileage is 25 miles/gallon.=Q2: What is the total fuel consumption of cars in the US if the mileage is 20 miles/gallon.=Q3: What is the total distance travelled by all the cars in the US in a year?=Q4: What is the new mileage?=Q5: What is the old mileage?=A1: 25 miles*gal**-1=A2: 20 miles*gal**-1=A3: 6e+7 miles=A4: 19.6 pounds/gal=Q5 -> A2 | F2=Q4 -> A1 | F1=Q3 -> A3 | F3=Q1 -> Div (Q3, Q4)=Q2 -> Div (Q3, Q5)=Q6 -> Sub (Q2, Q1)=Q7 -> A4 | F4=P: Mul (Q6, Q7)", "answer": "1.1e+7 pounds", "context": "CONTEXT:=F1: The new mileage is 25 miles/gallon.=F2: The old mileage is 20 miles/gallon.=F3: The distance covered by all the cars in the US in a year is around 6e+7 miles [estimate]=F4: The CO2 produced by 1 gallon of fuel is 19.6 lbs."}, {"question": "What would be the blast radius of a Davey Crockett nuke?", "program": "PROGRAM:=A1: 150 m=P: A1 | F1", "answer": "150 m", "context": "CONTEXT:=F1: The blast radius of a Davy Crockett nuke is 150 m. [it is a straightforward fact. There's no math for this number]"}, {"question": "What percent of organ donors die and actually meet the criteria to donate?", "program": "PROGRAM:=Q1: What is the numerical coefficient used to convert fraction to percentage?=Q2: What fraction of organ donor's organs are actually used to serve its purpose?=Q3: How many organ donor's organs meet the required criteria each year?=Q4: How many organ donors die each year?=A1: 100=A2: 210=A3: 70000=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.3", "context": "CONTEXT:=F1: The numerical coefficient to convert fraction to percentage is 100.=F2: Only 70 organ donor's organs meet the criteria for organ transplantation.=F3: Around 70000 donors die each year."}, {"question": "How much oil, gas and coal has humans consumed up till now?", "program": "PROGRAM:=Q1: What quantity of non-renewable resources do humans consume annually?=Q2: How many years has it been since non-renewable resources were first introduced?=A1: 485e+15 BTU=A2: 141=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "6.8e+19 BTU", "context": "CONTEXT:=F1: On an average, humans use 485e+15 BTU every year.=F2: The non renewable resources have been in usage for 141 years now."}, {"question": "How many bath towels are needed to cover a football field?", "program": "PROGRAM:=Q4: What is the surface area of a football field?=Q3: What is the surface area of a bath towel?=Q1: What is the average length of a bath towel?=Q2: What is the average breadth of a bath towel?=A1: 150 cm=A2: 45 cm=A3: 7.14e+7 cm**2=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul (Q1, Q2)=Q4 -> A3 | F3=P: Div (Q4, Q3)", "answer": "10577", "context": "CONTEXT:=F1: The average length of a bath towel is 150 cm=F2: The average breadth of a bath towel is 45 cm.=F3: The surface area of a football field is 7.14e+7 cm**2"}, {"question": "If you prepared a tank with all of the air you need to breathe in one day, how large would it be?", "program": "PROGRAM:=Q1: How much air does one breathe in an hour?=Q2: How many hours are there in a day?=Q3: How many litres of air does one breathe in a minute?=Q4: How many minutes are there in an hour?=A1: 24=A2: 8 L=A3: 60=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "11520 L", "context": "CONTEXT:=F1: There are 24 hours in a day.=F2: An average human breathes around 6 litres of air per minute.=F3: There are 60 minutes in an hour."}, {"question": "I'm a 19 year old male that is 6'2\" & 180lbs that excersizes regularly. Roughly what percent of the world's population could I beat in a fight?", "program": "PROGRAM:=Q1: What fraction of people can the person beat in a fight?=Q2: What is the numerical factor to convert fraction to percent?=Q3: What is the number of people the male can beat in a fight?=Q4: What is the total population in the world?=A1: 100=A2: 1e+9=A3: 7.2e+9=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "13.8", "context": "CONTEXT:=F1: The numerical factor to convert a fraction into percent is 100.=F2: The rough number a person who exercises regularly can beat in a fight is 1e+9. [assumption]=F3: The total world population is 7.2e+9"}, {"question": "How many molecules of water are in a cup of water?", "program": "PROGRAM:=Q1: What is the volume of a cup of water?=Q2: What is the volume of a single water molecule?=A1: 250 cm**3=A2: 3e-23 cm**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "8.30E+24", "context": "CONTEXT:=F1: The volume of a cup of water is 250 cubic cm=F2: The volume of a single water molecule is 3e-23 cubic cm"}, {"question": "How many softballs are produced annually?", "program": "PROGRAM:=Q1: How many softballs are produced daily?=Q2: How many working days are there in a year?=A1: 7000=A2: 261=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.80E+06", "context": "CONTEXT:=F1: Around 7000 softballs are produced daily. (Assumption)=F2: There are 261 working days in a year."}, {"question": "How many gallons of water move down the Mississippi River in one day?", "program": "PROGRAM:=Q1: What is the average flow rate of water?=Q2: What is the duration of a day in seconds?=A1: 1.6e+6 gallons*s**-1=A2: 86400 s=Q2 -> A2|F2=Q1 -> A1|F1=P: Mul(Q1, Q2)", "answer": "1.3e+11 gallons", "context": "CONTEXT:=F1: 1.6e6 gallons of water move down the Mississippi River per second.=F2: There are 86400 seconds in a day."}, {"question": "If we had a cueball earthsized how high will be the highest mountain?", "program": "PROGRAM:=Q1: What is the height of the highest mountain on Earth?=Q2: What is the ratio of volume of cueball to volume of earth?=Q3: What is the volume of cueball?=Q4: What is the volume of earth?=A1: 8.8 km=A2: 7.7e-7 km**3=A3: 1083206916846 km**3=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "6.2e-18 km", "context": "CONTEXT:=F1: The height of the highest mountain on Earth is 8.8 km=F2: The volume of cue ball is 7.7e-7 cubic km=F3: The volume of earth is 1083206916846 cubic km"}, {"question": "How many kilometers would the Earth have travelled during the time elapsed between two full moons?", "program": "PROGRAM:=Q1: What is the speed at which Earth moves?=Q2: What is the duration between two full moons?=Q3: What is the time interval between two full moons?=Q4: How many hours do we have in a day?=A1: 1656 km*hour**-1=A2: 30=A3: 24 hour=Q4 -> A3| F3=Q3 -> A2| F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1| F1=P: Mul (Q1, Q2)", "answer": "1192320 km", "context": "CONTEXT:=F1: The speed at which Earth moves is 1656 kmph=F2: The time interval between two full moons is 30 days=F3: There are 24 hours in a single day."}, {"question": "How many nukes do you need to move the Earth 1% out of its orbit?", "program": "PROGRAM:=Q1: How much energy is required to move earth 1% out of its orbit?=Q2: What is the energy emitted by a single nuke?=Q3: What is the energy required to move earth from its orbit?=Q4: What percent of earth is to be moved?=A1: 4e+15 J=A2: 4e+35 J=A3: 0.01=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Div(Q1, Q2)", "answer": "1.00E+18", "context": "CONTEXT:=F1: A single nuke contains around 4e+15 J=F2: Around 4e+35 J is required to knock earth from its orbit.=F3: Earth is to be moved 1% out of its orbit."}, {"question": "If all the RBCs in an adult male are placed in a square pattern, what is the area, in m2, that these RBCs would cover?", "program": "PROGRAM:=Q1: What is the side length of a single RBC?=Q2: What is the relation between surface area and side of a square?=A1: 4e-6 m=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Pow (Q1, Q2)", "answer": "1.6E-11 m**2", "context": "CONTEXT:=F1: The side length of an RBC is 4e-6 m (considering radius to be the length of a side)=F2: Surface area is square of the side length."}, {"question": "Consider a steel ball at room temperature. If you converted all its internal energy to kinetic energy, how fast would it be moving?", "program": "PROGRAM:=Q1: What is the square of the velocity of the steel ball?=Q2: What is the relation square of the velocity and velocity?=Q3: What is the internal energy of a steel ball at room temperature?=Q4: What is the mass of an average steel ball?=A1: 1/2=A2: 32 kg*m**2*s**-2=A3: 2 kg=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Pow (Q1, Q2)", "answer": "4 m*s**-1", "context": "CONTEXT:=F1: The relation between square of the velocity and velocity is 1/2=F2: The internal energy of steel ball at room temperature is 32 kg*m**2*s**-2=F3: The mass of an average steel ball is 2 kg"}, {"question": "How long is one gram of DNA?", "program": "PROGRAM:=Q1: What is the relation between length and volume of a cube?=Q2: What is the volume of a 1 g DNA structure?=Q3: What is the mass of DNA given?=Q4: What is the density of DNA?=A1: 1g=A2: 1.7 g*cm**-3=A3: 1/3=Q4 -> A2 | F2=Q3 -> A1 | F1=Q2 -> Div (Q3, Q4)=Q1 -> A3 | F3=P: Pow (Q2, Q1)", "answer": "0.83 cm", "context": "CONTEXT:=F1: The length of the cube is the cube root of the volume of the cube. (Assuming volume of the double helical structure to be same as that of a cube of similar dimensions)=F2: The mass of DNA given is 1g=F3: The density of DNA is 1.7g/cc"}, {"question": "How Fast Would You Have To Be Going To Travel A Light Year a Day?", "program": "PROGRAM:=Q1: What is the distance of the light year?=Q2: What is duration given?=Q3: What is the speed at which light travels?=Q4: How many seconds are there in a year?=Q5: How many days are there in a year?=Q6: How many seconds are there in a day?=A1: 86400 s=A2: 3e+8 m*s**-1=A3: 365=A4: 86400 s=Q6 -> A4| F4=Q5 -> A3| F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.095e+11 m*s**-1", "context": "CONTEXT:=F1: The duration given is 1 day i.e 86400 seconds.=F2: The speed at which light travels is 3e+8 m/s=F3: There are 365 days in a year.=F4: The number of seconds in a day is 86400."}, {"question": "What is the approximate total length, km, of blood vessels in an adult male?", "program": "PROGRAM:=Q1: How many cells are there in a human body?=Q2: What is the diameter of a single cell in a human body?=A1: 724e+12=A2: 1.38e-10 mi=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "99912 mi", "context": "CONTEXT:=F1: The number of cells in human body is 724e+12=F2: The diameter of a single cell is 1.3e-10mi"}, {"question": "Estimate the number of blades of grass a typical suburban house's lawn has in the summer.", "program": "PROGRAM:=Q1: What is the average area of a suburban lawn?=Q2: How many blades of grass does an average square foot consist of?=A1: 10000 ft**2.=A2: 3000 ft ** -2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3.00E+07", "context": "CONTEXT:=F1: The average area of a suburban lawn in US is 10000 sq foot.=F2: The average square foot has 3000 blades of grass."}, {"question": "How long does it take a light bulb to turn off?", "program": "PROGRAM:=Q1: What is the ratio between the time it takes to blink and the time it takes for a light bulb to turn off?=Q2: How long does it take our eyes to blink?=A1: 2=A2: 0.1s=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.2 sec", "context": "CONTEXT:=F1: Assuming that the time taken for our eyes to blink is half of the time taken by the light bulb to turn off.=F2: The time taken by our eyes to blink is 0.1 sec"}, {"question": "How tall would a bacteria be on the surface of the skin, if it were like a tree on the surface of the earth?", "program": "PROGRAM:=Q1: What is the volume of the bacteria?=Q2: What is the surface area of the bacteria?=Q3: What is the height of bacteria on the skin?=Q4: What is the height of a tree on earth?=A1: 0.56e-6 m**3=A2: 3.1e-6 m**2=A3: 50 m=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=Q4 -> A3 | F3=P: Div (Q3, Q4)", "answer": "3.60E-03", "context": "CONTEXT:=F1: The volume of bacteria is 0.52e-6 metre cube=F2: The surface area of the bacteria is 3.1e-6 metre square=F3: The height of a tree on earth is 50 m"}, {"question": "If we were to tally up every drop of gas wasted each time we hang up the pump, how many gallons per year would that equate to?", "program": "PROGRAM:=Q1: How many gallons of gas do we waste when we hang up a pump every time?=Q2: How many times does an average american visit the gas station every year?=A1: 0.001 gal=A2: 170=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.17 gal", "context": "CONTEXT:=F1: The amount of gas wasted during each gas station visit it around 0.001 gal [estimate]=F2: Roughly an average american visits the gas station 170 times in a year (roughly once in two days)"}, {"question": "How long would a (2500 mAh) AA battery be able to sustain a beam of energy that could, within seconds, burn through wood?", "program": "PROGRAM:=Q1: What is the length of a AA battery?=Q2: How many AA batteries do we need to sustain a beam of energy?=Q3: What is the energy of a normal light beam?=Q4: What is the energy that a single AA battery can survive through?=A1: 0.05 m=A2: 1e+10 J=A3: 1e+4 J=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "50000 m", "context": "CONTEXT:=F1: The length of a AA battery is 0.05 m=F2: The energy of the light beam is 1e+10 J=F3: The energy that a single AA battery sustain is 1e+4 J"}, {"question": "How much does it cost to leave a light on for an entire year?", "program": "PROGRAM:=Q1: How much does it cost to power a light for a day?=Q2: How many days are there in a year?=A1: 0.005=A2: 365=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Mul (Q1, Q2)", "answer": "$1.83", "context": "CONTEXT:=F1: The cost to power a light for a day is 0.005 USD=F2: There are 365 days in a year."}, {"question": "How large of an comet would have to hit the earth in order to correct the tilt?", "program": "PROGRAM:=Q1: What is the total energy required to correct the earth's tilt?=Q2: What is the volume of the average comet carrying an energy of 4.4e+9 J?=Q3: What is the energy required to tilt the earth's axis by a degree?=Q4: How many degrees are to be set right for the earth's axis to be brought back to its actual form?=Q5: What is the average energy of a comet?=Q6: What is the ratio of energy of the total energy to the energy of a single comet?=A1: 5e+17 cm**3=A2: 1.3e+18 J=A3: 23=A4: 4.4e+15 J=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q5 -> A4 | F4=Q6 -> Div (Q1, Q5)=Q2 -> A1 | F1=P: Mul (Q6, Q2)", "answer": "3.4e+21 cm**3", "context": "CONTEXT:=F1: The volume of an average comet is 5e+17 cm**3=F2: The energy required to tilt the earth's axis by a degree is 1.3e+18 J=F3: The number of degrees to be tilted is 23=F4: The average energy of a comet is 4.4e+15 J"}, {"question": "How many tons of food are consumed in Chicago during the course of a day?", "program": "PROGRAM:=Q1: What is the population of Chicago?=Q2: What is the average quantity of food a US citizen eats each day?=Q3: How much food does the total population in Chicago eat each day?=Q4: How many pounds are in a ton?=A1: 2710000=A2: 4 pounds=A3: 100 pounds=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul (Q1, Q2)=Q4 -> A3 | F3=P: Div (Q3, Q4)", "answer": "108400", "context": "CONTEXT:=F1: The population of Chicago is 2710000.=F2: The average quantity of food a US citizen eats each day is 4 pounds.=F3: A ton is 100 pounds."}, {"question": "How many illiterate people are there in India?", "program": "PROGRAM:=Q1: What is the population of India?=Q2: What is the illiteracy rate in India?=A1: 1360000000=A2: 0.26=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "353600000", "context": "CONTEXT:=F1: The population of India is 1360000000=F2: The illiteracy rate in India is 26%"}, {"question": "How many people do we meet in our life?", "program": "PROGRAM:=Q1: What is the average life expectancy?=Q2: How many new people do we meet annually?=A1: 72=A2: 140=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "10080", "context": "CONTEXT:=F1: The average life expectancy is 72 years.=F2: On an average, we meet 140 new people every year."}, {"question": "How many links do we need to make a paper chain that stretches across the bulletin board?", "program": "PROGRAM:=Q1: What is the length of a normal bulletin board?=Q2: What is the length of a single piece of paper?=A1: 210 cm=A2: 30 cm=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "7", "context": "CONTEXT:=F1: The length of a normal bulletin board is 210 cm=F2: The length of a single sheet of paper is 30 cm"}, {"question": "How many years would it take if it were possible to walk to the moon?", "program": "PROGRAM:=Q4: How many hours would it take to walk to the moon?=Q1: What is the distance between Earth and Moon?=Q2: What is the average speed at which a person drives a car?=Q3: How many hours are there in a year?=A1: 384400 km=A2: 5 km*hour**-1=A3: 8760 hour/year=Q2 -> A2 | F2=Q1 -> A1 | F1=Q4 -> Div(Q1, Q2)=Q3 -> A3 | F3=P: Div (Q4, Q3)", "answer": "8.77 years", "context": "CONTEXT:=F1: The distance between Earth and Moon is 384400 km=F2: The average speed at which a person drives a car is 30 kmph.=F3: A typical year consists of 8760 hours."}, {"question": "How many balloons can lift an Is-3?", "program": "PROGRAM:=Q1: What is the weight of an ls-3?=Q2: What is the maximum weight a balloon can hold?=A1: 183 kg=A2: 0.015 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "12200", "context": "CONTEXT:=F1: The weight of a ls-3 is 183 kg=F2: The maximum weight a balloon can hold is 0.015 kg."}, {"question": "What is the average depth (cm) of the earth's oceans?", "program": "PROGRAM:=Q1: What is the total volume of earth's oceans?=Q2: What is the surface area of earth's oceans?=A1: 300000000 miles**3=A2: 130434782 miles**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "2.3 miles", "context": "CONTEXT:=F1: The total volume of earth's oceans is 300000000 cubic miles=F2: The average surface area in earth's oceans is 130434782 squaremiles"}, {"question": "How much electricity would one need to stop a car from moving forward?", "program": "PROGRAM:=A1: 50 hp=P: A1 | F1", "answer": "50 hp", "context": "CONTEXT:=F1: It takes an average of 50 hp while applying brakes to stop the car from moving forward."}, {"question": "How many inch-worms are equivalent in length to the circumference of the Earth at the equator?", "program": "PROGRAM:=Q1: What is the circumference of earth at the equator?=Q2: What is length of inch worms?=A1: 1.6e+9 in=A2: 1 in=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.60E+09", "context": "CONTEXT:=F1: The circumference of earth at the equator is 1.6e+9=F2: The length of an inch worm is 1 inch"}, {"question": "How many drops of water are needed to fill a swimming pool (25x12x2 meters)?", "program": "PROGRAM:=Q1: What is the volume of the given swimming pool?=Q2: What is the volume of a single drop of water?=A1: 600 m**3=A2: 18e-10 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "3.30E+11", "context": "CONTEXT:=F1: The volume of the swimming pool is 600 cubic metre=F2: The volume of a single water drop is 18e-10 cubic metre"}, {"question": "What is the usage of former rainforest territory in percent?", "program": "PROGRAM:=Q1: What is the ratio of total area of rainforests cut to the total area of rainforests?=Q2: What is the numerical coefficient to convert fraction to percentage?=Q3: What is the total area of rainforests cut by humans?=Q4: What is the original area of rainforests?=A1: 100=A2: 9.8e+6 mi**2=A3: 16e+6 mi**2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "61.25", "context": "CONTEXT:=F1: The numerical coefficient to convert fraction to percentage is 100.=F2: The total area of rainforests cut by humans till now is 9.8e+6 miles**2=F3: The total area of rainforests is 16e+6 miles**2"}, {"question": "How much electrical power could you conceivably get out of a horse generator?", "program": "PROGRAM:=Q1: How much horsepower does an average horse possess?=Q2: How many watts is one horsepower?=A1: 15=A2: 735 watt=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "11025 W", "context": "CONTEXT:=F1: A horse possesses an average of 15 hp with it.=F2: 735 watts equal one horsepower."}, {"question": "At what time is a higher percentage of a country's population asleep than awake?", "program": "PROGRAM:=A1: 3 hours=P: A1 | F1 ", "answer": "3 hours", "context": "CONTEXT:=F1: The globally observed time when most of a country's population is asleep is 0300 hours"}, {"question": "How many soccer balls could you fit into a classroom?", "program": "PROGRAM:=Q1: What is the average volume of a classroom?=Q2: What is the average volume occupied by a single football in free space?=A1: 7680 ft**3=A2: 0.20 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "38400", "context": "CONTEXT:=F1: The average volume of a classroom is 7680 cubic feet.=F2: The average volume occupied by a single football in freespace is 0.20 cubic feet."}, {"question": "What is the estimated journey time for Santa Claus?", "program": "PROGRAM:=Q1: What is the time interval between visiting two households for Santa Claus?=Q2: What is the total number of households in the world?=A1: 2 hours=A2: 1.8e+8=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "3.6e+8 hours", "context": "CONTEXT:=F1: The average time interval between visiting two households for Santa Claus is roughly 2 hours.=F2: The total number of households in the world is 1.8e+8"}, {"question": "how much do all the worlds beards weigh?", "program": "PROGRAM:=Q1: How many people in the world have a beard?=Q2: What is the average mass of a beard?=A1: 1.8e+9=A2: 0.003 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "5.4e+6 g", "context": "CONTEXT:=F1: Around 1.8e+9 people in the world have a beard.=F2: The average mass of a beard is 0.003 grams"}, {"question": "If the sun were a head of a body, how long would it's arms be?", "program": "PROGRAM:=Q1: What is the size of the sun?=Q2: What is the ratio of the size of the sun to the size of arms?=A1: 696340 km=A2: 3.5=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2437190 km", "context": "CONTEXT:=F1: The size of the sun is 696340 km=F2: The ratio of the size of the sun to the size of the arms is 3.5:1"}, {"question": "What temperature would air have to be to give you a third-degree burn over the periods of 1 second?", "program": "PROGRAM:=Q1: At what temperature does our body receive third degree burns?=Q2: How long does it take for a third degree burn to take place?=A1: 162 degree F=A2: 1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "162 degree F", "context": "CONTEXT:=F1: At 162 degree F of heat, our body receives third degree burns.=F2: It takes one second for the heat to burn the skin."}, {"question": "The Paedophryne amauensis frog is the smallest vertebrates known to science, how many cells go into making up a typical (adult) specimen's body?", "program": "PROGRAM:=Q1: What is the size of an average cell?=Q2: What is the size of the adult specimen of the frog?=A1: 1e-6 m**3=A2: 1e-4 m**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "100", "context": "CONTEXT:=F1: The average size of a normal cell is 1e-6 m cube=F2: The size of the adult specimen of the frog is 1e-4 metre cube."}, {"question": "On Sunday of Thanksgiving weekend, the highway is at maximum capacity with cars safely going at the speed limit. How many cars are on the highway?", "program": "PROGRAM:=Q1: What is the average surface area of a car?=Q2: What is the surface area of the road?=Q3: What is the width of the highway?=Q4: What is the length?=A1: 5.6 m**2=A2: 3.7 m=A3: 250000 m=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "165178", "context": "CONTEXT:=F1: The surface area of an average car 5.6 metre square=F2: The width of an average highway is 3.7 m.=F3: The length of the highway is 250000 m long."}, {"question": "How many sponges does it take to drain the ocean?", "program": "PROGRAM:=Q1: What is the total volume of water present in the oceans?=Q2: What is the maximum volume of water that a sponge can hold?=A1: 13338181 cubic km=A2: 2e-4 cubic km=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "66690905000", "context": "CONTEXT:=F1: The total volume of water present in the oceans is 13338181 cubic km=F2: The maximum volume of water that a sponge can hold is 2e-4 cubic km"}, {"question": "How hard you need to throw a snowball to knock down/faint a person?", "program": "PROGRAM:=A1: 10 N=P: A1 | F1", "answer": "10 N", "context": "CONTEXT:=F1: The force required to knock someone off is 10 N"}, {"question": "If you drop a pumpkin from the top of a ten story building what is the farthest a single pumpkin seed can land from the point of impact?", "program": "PROGRAM:=Q1: What is the speed of the seed while leaving the point of impact?=Q2: For how long does the seed travel before it reaches its farthest point?=A1: 30 meters*seconds**-1=A2: 3 seconds=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "90 meters", "context": "CONTEXT:=F1: The speed of the seed while leaving the point of impact is 30 m/s=F2: The seed travels for a period of 3 sec.=F3: Assuming that the direction of the projectile is 0 degrees wrt ground."}, {"question": "How many cups of water are there in an Olympic pool?", "program": "PROGRAM:=Q1: What is the average volume of an Olympic Pool?=Q2: What is the average volume of a water cup?=A1: 88230 ft**3=A2: 0.009 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "9803000", "context": "CONTEXT:=F1: The average volume of an Olympic Pool is 88230 cubic feet.=F2: The average volume of a water-cup is 0.009 cubic feet."}, {"question": "How much new wood is grown around the world by trees everyday?", "program": "PROGRAM:=Q1: How many trees are there in the world?=Q2: How much new wood is grown by a single tree daily?=A1: 4e+14=A2: 2 pounds=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "8e+14 pounds", "context": "CONTEXT:=F1: 4e+14 trees are there in the world.=F2: 2 pounds of wood grows every day on a tree."}, {"question": "How long does it take for blood to coagulate in a reptile carcass?", "program": "PROGRAM:=Q1: What is the time taken for blood coagulation in humans?=Q2: What is the ratio of blood coagulation in reptiles to that in humans?=A1: 30 s=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul(Q1, Q2)", "answer": "60 s", "context": "CONTEXT:=F1: The time taken for blood to coagulate in humans is 30 seconds.=F2: The ratio of time taken for blood to coagulate in reptiles when compared to humans is 2"}, {"question": "If all of the books in a school were stacked on top of each other in one pile, how tall would the pile be?", "program": "PROGRAM:=Q1: What is the average thickness of a school book?=Q2: What is the number of books available in a school at a given time?=A1: 1.5 cm=A2: 2000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3000 cm", "context": "CONTEXT:=F1: The average thickness of a school book is 1.5 cm=F2: The total number of books available in the school at a given point of time is around 2000."}, {"question": "How many toothpicks could be made from a telephone pole?", "program": "PROGRAM:=Q1: What is the volume of a telephone pole?=Q2: What is the volume of a single toothpick?=A1: 25.6 ft**3=A2: 7e-6 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "3.66E+06", "context": "CONTEXT:=F1: The volume of a telephone pole is 25.6 cubic feet=F2: The volume of a toothpick is 7e-6 cubic feet"}, {"question": "How much would a newly-discovered unreleased Beatles album sell for?", "program": "PROGRAM:=Q1: What is the market rate for a Beatles album?=Q2: What is the average auction ratio for a musical piece?=A1: 5000=A2: 160=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$800000", "context": "CONTEXT:=F1: The market rate of a Beatles album is 5000 USD=F2: The average ratio of auction price to base price is 160"}, {"question": "How much space would be required to fit 1 individual of each species of plants and animals?", "program": "PROGRAM:=Q1: What is the volume occupied by a single species of all the animals in the world?=Q2: What is the volume occupied by single species of all the plants in the world?=Q3: What is the volume of an average animal?=Q4: How many different species of animals present?=Q5: What is the volume of a single plant?=Q6: How many different species of plant present?=A1: 7200 cm**3=A2: 7.7e+6=A3: 1570 cm**3=A4: 391000=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> A2 | F2=Q3 -> A1 | F1=Q2 -> Mul ( Q5, Q6)=Q1 -> Mul (Q3, Q4)=P: Add (Q1, Q2)", "answer": "56053870000 cm**3", "context": "CONTEXT:=F1: Assuming the average volume of a single animal to be 7200 cc (90x40x2)=F2: The number of animal species in the world are 7.7e+6=F3: The average volume of a plant is 1570 cc (20cm height and 5cm radius)=F4: The number of plant species in the world are 391000"}, {"question": "How much space would a million people need at a political rally?", "program": "PROGRAM:=Q1: How much space does a single person need?=Q2:How many people are there in the rally?=A1: 4 ft**2=A2: 1e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "4e+6 ft**2", "context": "CONTEXT:=F1: An average person needs 4 sq.ft of space.=F2: A million rally has a total of 1e+6 people."}, {"question": "I was writing a harpy character (demi-human) and ran into a problem in regards to his wingspan. Can you all help?", "program": "PROGRAM:=Q1: What is the height of an average person?=Q2: What is the ideal length of the wingspan of a body that flies?=A1: 174 cm=A2: 0.7=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "121.8 cm", "context": "CONTEXT:=F1: The height of an average person is 174 cm=F2: The ideal wingspan of a flying body is around 70% of its length."}, {"question": "How many blades of grass are in a typical lawn in your neighborhood?", "program": "PROGRAM:=Q1: What is the average area of a suburban lawn?=Q2: How many blades of grass does an average square foot consist of?=A1: 10000 ft**2.=A2: 3000 ft**-2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "30000000", "context": "CONTEXT:=F1: The average area of a suburban lawn in US is 10000 sq foot.=F2: The average square foot has 3000 blades of grass."}, {"question": "How long would it take for a space ship to reach 42 light years away?", "program": "PROGRAM:=Q1: What is the distance to be covered?=Q2: What is velocity of an average spaceship?=A1: 42 ly=A2: 2.9e-9 ly*hour**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.4e+10 hours", "context": "CONTEXT:=F1: The distance to be covered is 42 light years.=F2: The velocity of an average spaceship is 2.9e-9 light years per hour"}, {"question": "Assuming we found a suitable place and could get there, how many people would be needed to colonize a new planet without having to worry about incest in future generations?", "program": "PROGRAM:=A1: 500=P: A1 | F1", "answer": "500", "context": "CONTEXT:=F1: The minimum population required to colonise entire human population is 500. [Discovered with straightforward fact without any math supporting the answer]"}, {"question": "In the United States, how many people have type O blood?", "program": "PROGRAM:=Q1: What is the population of the United States?=Q2: What is the percentage of occurrence of type O blood?=A1: 328200000=A2: 0.37=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "121434000", "context": "CONTEXT:=F1: The population of the United States is 328200000=F2: Blood group O is the commonest blood group with 37.12% of occurence in an average human."}, {"question": "How much additional weight would you need to make a dead body submerge in water?", "program": "PROGRAM:=Q1: What is the average weight of a dead body that sinks in water?=Q2: What is the average weight of a normal person?=A1: 125 kg=A2: 63 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q1, Q2)", "answer": "63 kg", "context": "CONTEXT:=F1: Even Though dead bodies float, dead people weighing upwards of 125 kg sink in water.=F2: The average weight of normal person is 63 kg"}, {"question": "What is the surface area, cm2, of a TiO2 pigment particle?", "program": "PROGRAM:=Q1: What is the length of a single TiO2 pigment?=Q2: What is the relation between length and surface area of a particle=A1: 1e-4 cm=A2: 2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Pow(Q1, Q2)", "answer": "1e-8 cm**2", "context": "CONTEXT:=F1: The length of a TiO2 pigment is 0.0001 cm=F2: The surface area of the particle is the square of the length."}, {"question": "According to some recent highly accurate measurements made from satellites, the continent of North America is drifting at a rate of about 1 cm per year. Assuming a continent is about 50 km thick, estimate the kinetic energy the continental US has as a result of this motion.", "program": "PROGRAM:=Q1: What is the mass of the continent?=Q2: What is the square of the rate at which the continent is drifting?=Q3: What is the density of the continent?=Q4: What is the volume of the continent?=Q5: What is the thickness of the continent?=Q6: What is the surface area of the continent?=Q7: What is half of the mass of the continent?=Q8: What is the velocity at which the continent is drifting?=Q9: What is the numerical coefficient in half of the mass?=Q10: What is the numerical value for the exponent of the square of velocity?=A1: 1e-5 km*year**-1=A2: 5.5e+12 kg*km**-3=A3: 24.7e+6 km**2=A4: 50 km=A5: 2=A6: 2=Q6 -> A3 | F3=Q5 -> A4 | F4=Q4 -> Mul (Q6, Q5)=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q9 -> A6 | F7=Q7 -> Div (Q1, Q9)=Q10 -> A5 | F6=Q8 -> A1 | F1=Q2 -> Pow (Q8, Q10 )=P: Mul (Q7, Q2)", "answer": "3.3e+11 kg*km**2*year**-2", "context": "CONTEXT:=F1: The rate at which the continent is drifting apart is 1e-5 km/year=F2: The density of the continent is 5.5e+12 kg/km**3=F3: The surface area of the continent is 24.7e+6 km**2=F4: The thickness of the continent is 50 km=F6: The square of the velocity is velocity times velocity.=F7: The numerical coefficient in half of the mass is 2."}, {"question": "How many youtube videos are there?", "program": "PROGRAM:=Q1: How long has it been since Youtube was started?=Q2: How many videos are uploaded on YouTube every year?=A1: 1e+8=A2: 16=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.60E+09", "context": "CONTEXT:=F1: Around 1e+8 videos are uploaded on Youtube every year.=F2: It has been 16 years since Youtube was first introduced."}, {"question": "How many sharks are there?", "program": "PROGRAM:=Q1: How many species of shark are there?=Q2: What is the number of sharks per species?=A1: 1000=A2: 1e+6=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.00E+09", "context": "CONTEXT:=F1: There are around 1000 shark species.=F2: There are around 1e+6 sharks per specie."}, {"question": "How many water molecules are present in the earth's oceans?", "program": "PROGRAM:=Q4: What is the mass of a single water molecule?=Q3: What is the total mass, kgm, of the oceans?=Q1: What is the density of a water molecule?=Q2: What is the total volume of water present in the oceans?=A1: 4.156e+12 kg*mile**-3=A2: 320000000 mile**3=A3: 2.988e-26 kg=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Mul(Q1, Q2)=Q4 -> A3 | F3=P: Div(Q3, Q4)", "answer": "4.45E+46", "context": "CONTEXT:=F1: The density of a single water molecule is 4.156e+12 kg/cubic mile=F2: The total volume of water molecules is 32000000 cubic miles=F3: The mass of single water molecule is 2.988e-26 kg"}, {"question": "How long would it take for a microwave to evaporate 250 ml of water?", "program": "PROGRAM:=Q1: What is the total energy required to evaporate 250 ml of water?=Q2: What is power at which a normal microwave operates?=Q3: What is the change in temperature required to evaporate water?=Q4: What is the mass of water given?=A1: 298.6 s**-1=A2: 85=A3: 250=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Mul (Q3, Q4)=Q2 -> A1 | F1=P: Div (Q1, Q2)", "answer": "71 s", "context": "CONTEXT:=F1: The power at which a microwave operates is 298.6 cal*s**-1=F2: The change in temperature required is 85 degree=F3: The mass of water given is 250 g"}, {"question": "How much does a city weigh?", "program": "PROGRAM:=Q1: What is the average mass per sq.ft in a city?=Q2: What is the total area of a normal city?=A1: 22 kg*ft**-2=A2: 1.3e+9 ft**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2.86e+10 kg", "context": "CONTEXT:=F1: The average mass per sq.ft in a city is 22 kg (including buildings, appliances, etc) [estimate]=F2: The total area of a normal city is 1.3e+9 sq.ft"}, {"question": "In the 1989 Loma Prieta earthquake in California, approximately 2 million books fell off the shelves at the Stanford University library. If you were the library administrator and wanted to hire enough part-time student labor to put the books back on the shelves in order in 2 weeks, how many students would you have to hire?", "program": "PROGRAM:=Q1: How many books are to be re-stacked?=Q2: How many books can a single student re-stack in 2 weeks?=Q3: How many days are there in 2 weeks?=Q4: How many books can a single person re-stack in a day?=A1: 2000000=A2: 14=A3: 2000=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "71", "context": "CONTEXT:=F1: There are 2 million books to be re-stacked=F2: There are 14 days in 2 weeks.=F3: A single person can re-stack 2000 books a day assuming the books did not fall far from the shelves"}, {"question": "If a person rubbed a rock with their fingers how long would it take for the rock to become smooth?", "program": "PROGRAM:=Q1: How much energy does a person spend smoothening the rock for an hour?=Q2: How much energy is required to smoothen a rock roughly?=A1: 200 cal*h**-1=A2: 2000 cal=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q2, Q1)", "answer": "10 h", "context": "CONTEXT:=F1: Around 200 cal of energy is spent in smoothening a rock for an hour.=F2: Approximately 2000 calories is required to smoothen a small rock."}, {"question": "For next year's Physics Open House the Department is planning to set up a bungee jump from the top of the physics building. Assume that one end of an elastic band will be firmly attached to the top of the building and the other to the waist of a courageous participant. The participant will step off the edge of the building to be slowed and brought back up by the elastic band before hitting the ground (we hope). Estimate the spring constant of the elastic you would recommend using.", "program": "PROGRAM:=Q1: What is the potential energy generated as a result of this action?=Q2: What is the square of the distance elongated by the spring as a result of this action?=Q3: What is the elongation caused in the string?=Q4: What is the multiplicative factor to get the square of the string?=A1: 2500 J=A2: 5 m=A3: 2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Pow (Q3, Q4)=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "100 J*m**-2", "context": "CONTEXT:=F1: The potential energy generated as part of this action is 2500 J=F2: The elongation caused in the spring is 5 metre.=F3: The multiplicative factor to get the square of the string is 2"}, {"question": "During a male's lifetime, how many pounds of RBCs are produced?", "program": "PROGRAM:=Q1: What is the average life expectancy?=Q2: How many pounds of RBC are produced in a single year?=Q3: How many days pounds of RBC is produced in a single day?=Q4: How many days are there in a year?=Q5: How many RBCs are produced each day?=Q6: What is the mass of a single RBC?=A1: 72=A2: 365=A3: 2e+11=A4: 2e-14 pounds=Q6 -> A4 | F4=Q5 -> A3 | F3=Q3 -> Mul (Q5, Q6)=Q4 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "105.12 pounds", "context": "CONTEXT:=F1: The average life expectancy is 72 years=F2: There are 365 days in a year.=F3: Around 2e+11 RBCs are produced each day.=F4: Mass of a single RBC is 2e-14 pounds"}, {"question": "How many texts does the average student send per year?", "program": "PROGRAM:=Q1: How many days are there in a year?=Q2: How many texts does a student send in a day?=Q3: How many functional hours are there in a day?=Q4: How many texts does a student send every hour?=A1: 365=A2: 16 hour=A3: 3 hour**-1=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "17520", "context": "CONTEXT:=F1: There are 365 days in a year=F2: A functional day consists of 16 hours.=F3: An average student sends around 3 texts per hour."}, {"question": "How many terabytes would the entirety of google earth take up if you were to download it?", "program": "PROGRAM:=Q1: What is the total space taken by Google Earth?=Q2: How many terabytes equals a petabyte?=A1: 3 petabytes=A2: 1000 terabytes/petabytes=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3000 terabytes", "context": "CONTEXT:=F1: The total database size of Google Earth is 3 petabytes=F2: One petabyte is 1000 Terabytes"}, {"question": "How much energy would fall on a 1-square-meter surface from starlight?", "program": "PROGRAM:=Q1: What is the intensity of starlight?=Q2: What is the area of the surface given?=A1: 28e+9 W*m**-2=A2: 1 m**2=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "28e+9 W", "context": "CONTEXT:=F1: The intensity of the starlight is 28e+9 W/m**2=F2: The area of the surface is 1 m**2"}, {"question": "How long does it take to sail around Antarctica?", "program": "PROGRAM:=Q1: What is the distance surrounding Antarctica?=Q2: What is the speed at which normal sailors sail?=A1: 53610 km=A2: 150 km*hour**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "357.4 hours", "context": "CONTEXT:=F1: Ther distance surrounding Antarctica is 53610 km=F2: The speed at which normal sailors sail is 150 kmph"}, {"question": "On average and to be approximate, how much carbon emissions will be averted if 30,000 to 50,000 violent gang members were to be suddenly eliminated?", "program": "PROGRAM:=Q1: What is the average carbon footprint of a normal person?=Q2: What is the number of people that are going to be eliminated?=A1: 16 tons=A2: 40000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "640000 ton", "context": "CONTEXT:=F1: The average footprint of a normal person is 16 tons.=F2: The number of people that are going to be eliminated is 40000."}, {"question": "What is the volume of the earth, in km3?", "program": "PROGRAM:=Q1: What is the mass of earth?=Q2: What is the density of earth?=A1: 6e+24 kg=A2: 5.5e+12 kg*km**-3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "1.09e+12 km**3", "context": "CONTEXT:=F1: The mass of earth is 6e+24 kg=F2: The density of earth is 5.5e+12 kg per cubic cm"}, {"question": "If every forest and tree on Earth burned down, what would the remaining % of oxygen in the atmosphere be?", "program": "PROGRAM:=Q1: What percent of oxygen is produced by forests and trees?=Q2: What is the total percent that is being referenced?=A1: 28%=A2: 100%=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Sub (Q2, Q1)", "answer": "72", "context": "CONTEXT:=F1: Around 28% of Earth's oxygen is produced by Rainforests where as 70% is produced by ocean plants and 2% from other sources.=F2: The total percentage that is being reference is 100"}, {"question": "How much weight does ink add to paper?", "program": "PROGRAM:=Q1: How many cartridges of ink are used in writing one sheet of paper?=Q2: What is the mass of one cartridge of ink?=A1: 0.01=A2: 10 g=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "0.1 g", "context": "CONTEXT:=F1: Around 0.01 cartridge is spent in writing one sheet of paper.=F2: A single cartridge weighs 10 g."}, {"question": "Estimate the angular momentum that your body has as a result of the earth's turning on its axis.", "program": "PROGRAM:=Q1: What is the angular velocity of the Earth's rotation?=Q2: What is the moment of Inertia of Earth w.r.t to its own axis?=Q3: What is the numerical coefficient in the expression for moment of inertia?=A1: 0.000072 s**-1=A2: 1.525e+31 kg*meters**2=A3: 0.4=Q1 -> A1 | F1=Q3 -> Mul (Q1, 0.4)=Q2 -> A2 | F2=P: Mul (Q3, Q2)", "answer": "4.39e+26 kg*meters**2*s** -1", "context": "CONTEXT:=F1: The angular velocity of the Earth's rotation is 0.000072 /sec=F2: The moment of inertia of earth w.r.t to its own axis is 15.25 * 10^30 kg-sq.m=F3: The numerical coefficient in the expression for moment of inertia is 0.4"}, {"question": "How big would a tower have to be in order for everyone in North America to be able to see it?", "program": "PROGRAM:=Q1: What is the surface area of North America?=Q2: What is the relation between surface area of a circle and its radius?=Q3: What is the value of surface area of North America divided by pi?=Q4: What is the relation between the value of surface area of North America divided by pi and the height of the tower?=A1: 27.71 km**2=A2: 3.14=A3: 1/2=Q2 -> A2 | F2=Q1 -> A1 | F1=Q3 -> Div (Q1, Q2)=Q4 -> A3 | F3=P: Pow (Q3, Q4)", "answer": "2.97 km", "context": "CONTEXT:=F1: The surface area of North America is 27.71 km**2=F2: The relation between surface area and the radius of the circle is the square root of the area divided by pi and assuming that the entire North America is a circle and the minimum length of an object erected vertically that is visible to everyone is the radius of the circle.=F3: The relation between the value of surface area of North America divided by pi and the height of the tower is its square root"}, {"question": "What is the total number of shots taken in one NBA season, including the tournament?", "program": "PROGRAM:=Q1: How many games are played each season in an NBA game?=Q2: How many shots are attempted in a single NBA game?=A1: 82=A2: 100=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "8200", "context": "CONTEXT:=F1: 82 games are played each season in an NBA game=F2: An average of 100 shots are attempted per game."}, {"question": "Speedy Jones is the only deaf, Olympic sprinter. He uses the flash of the Starter's pistol to start a race. Speedy and 7 others won their 100-meter heats in 10.00 seconds. In the semi-final heat featuring these 8 racers, the Starter mistakenly fired his pistol at the finish line of the race. By how many millimeters did Speedy win his heat?", "program": "PROGRAM:=Q1: How late does Speedy start his race?=Q2: What is the speed of the racers?=Q3: What is the distance from the starter?=Q4: What is the speed of light?=Q5: What is the distance of the race?=Q6: How long do the racers take to complete the race distance?=A1: 100000 mm=A2: 3e+11 mm*s**-1=A3: 100000 mm=A4: 10 s=Q6 -> A4 | F4=Q5 -> A3 | F3=Q2 -> Div (Q5, Q6)=Q4 -> A2 | F2=Q3 -> A1 | F1=Q1 -> Div (Q3, Q4)=P: Mul (Q1, Q2)", "answer": "0.0033 mm", "context": "CONTEXT:=F1: The distance from the starter is 100000 mm=F2: The speed of light is 3e+11 mm*s**-1=F3: The distance of the race is 100000 mm=F4: The time taken to complete the distance by the racers is 10s"}, {"question": "How much air would it take to fill all of the school's basketballs, soccer balls, and volleyballs?", "program": "PROGRAM:=Q1: How much air is present on an average inside a basketball/football/volleyball/soccerball=Q2: How many balls do we have in total in the school?=A1: 0.8 atm=A2: 40=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "32 atm", "context": "CONTEXT:=F1: The average air present inside these balls is 0.8 atmospheres of air.=F2: There are a total of 40 balls in the school, 10 of each sport."}, {"question": "How many buildings are there?", "program": "PROGRAM:=Q1: How many cities are there in the world?=Q2: How many buildings does an average city have?=A1: 10000=A2: 1000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.00E+07", "context": "CONTEXT:=F1: There are around 10000 cities on Earth.=F2: There are at least 1000 buildings in a single city."}, {"question": "How much food does a man eat in his lifetime?", "program": "PROGRAM:=Q1: What is the average life time?=Q2: How much food does a man eat each year?=A1: 72=A2: 1966 pounds=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "141552 pounds", "context": "CONTEXT:=F1: The average life span is 72 years.=F2: An average man eats 1966 pounds of food each year."}, {"question": "How long does it take to cool the cockpit of an airplane to a desired temperature with an air conditioner?", "program": "PROGRAM:=Q1: What is the change in temperature required to bring the cockpit to required temperature with the AC?=Q2: How long does it take to change a single degree in the cockpit using AC?=Q3: What is the average temperature in the cockpit?=Q4: What is the desired temperature?=A1: 30 s=A2: 37=A3: 23=Q4 -> A3 | F3=Q3 -> A2 | F2=Q1 -> Sub (Q3, Q4)=Q2 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "420 s", "context": "CONTEXT:=F1: It takes around 30 seconds for a change in one degree temperature in the cockpit using the air conditioner.=F2: The average temperature in the cockpit is 37 degree C=F3: The desired temperature is 23 degree C"}, {"question": "How many molecules are in a TiO2 pigment particle?", "program": "PROGRAM:=Q1: What is the volume occupied by a single TiO2 pigment?=Q2: What is the volume occupied by a single molecule?=Q3: What fraction of volume is occupied by the molecules in the structure?=Q4: What is the total volume occupied by the pigment is?=A1: 0.000001 m**3=A2: 3e-23 m**3=A3: 0.5=Q4 -> A1 | F1=Q3 -> A3 | F3=Q1 -> Mul (Q3, Q4)=Q2 -> A2 | F2=P: Div(Q1, Q2)", "answer": "1.66E+16", "context": "CONTEXT:=F1: The volume occupied by a single TiO2 pigment is 0.000001 metre cube=F2: The volume occupied by a single molecule is 3e-23 metre cube=F3: 50% of the structure is occupied by the molecules."}, {"question": "If you took all humans and put it all in a box, how big would the edge of the box be?", "program": "PROGRAM:=Q1: What is the total volume of human race?=Q2: What is the relation between volume of the box and edge of the box=A1: 470e+12 cm**3=A2: 1/3=Q1 -> A1 | F1 =Q2 -> A2 | F2=P: Pow(Q1, Q2)", "answer": "77000 cm", "context": "CONTEXT:=F1: The total volume of human race is 470e+12 cc=F2: The edge of the box is cube root of its volume"}, {"question": "If fully oxygenated, how many oxygen molecules could be carried by the RBCs of an adult male?", "program": "PROGRAM:=Q1: What is the total number of RBCs in an adult male?=Q2: How many oxygen molecules are present in a single RBC?=Q3: How many haemoglobin units make up a single RBC?=Q4: How many Oxygen molecules are there in a single haemoglobin unit?=A1: 25e+12=A2: 3e+8=A3: 4=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "3.00E+22", "context": "CONTEXT:=F1: The total number of RBCs in an adult male is 25 trillion=F2: 300 million haemoglobin units make up a single RBC=F3: There are 4 Oxygen molecules in a single haemoglobin unit."}, {"question": "What is the horsepower in an average fart?", "program": "PROGRAM:=Q1: What is the force of an average fart?=Q2: With what velocity does an average velocity travel?=Q3: How many horse power is 1 pound*ft*min**-1?=Q4: What is the force of a fart in pound*ft*min**-1?=A1: 0.002 pound=A2: 0.16 ft*min**-1=A3: 1 pound*ft*min**-1*horsepower**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=Q4 -> Mul (Q2, Q1)=Q3 -> A3 | F3=P: Div (Q4, Q3)", "answer": "0.00032 horsepower", "context": "CONTEXT:=F1: The average force of a fart is 0.002 pound.=F2: The fart travels with an average velocity of 0.16 ft/min=F3: 1 horsepower is 1 pound*min**-1"}, {"question": "How many people would COVID-19 kill if it were 1918?", "program": "PROGRAM:=Q1: What is the total deaths to population ratio in Covid?=Q2: What was the population of mankind in 1918?=Q3: What is the total human population currently?=Q4: How many deaths have been caused world wide due to covid currently?=A1: 1.8e+9=A2: 7.2e+9=A3: 3.3e+6=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q4, Q3)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "8.20E+05", "context": "CONTEXT:=F1: The population of mankind in 1918 is 1.8e+9=F2: The total human population currently is 7.2e+9=F3: The total deaths caused due to covid till now are 3.3e+6"}, {"question": "How fast would deceased U.S. Presidents need to spin in their graves to meet the energy demands of the entire United States?", "program": "PROGRAM:=Q1: What is the velocity square at which the presidents are spinning?=Q2: What is the relation between velocity square and velocity?=Q3: What are the total energy demands of the entire US?=Q4: What is the total mass of the deceased presidents?=Q5: How many US presidents have died till now?=Q6: What is the average mass of the US presidents?=A1: 1/2=A2: 475e+12 kg*m**2*s**-2=A3: 39=A4: 70 kg=Q6 -> A4 | F4=Q5 -> A3 | F3=Q4 -> Mul (Q5, Q6)=Q3 -> A2 | F2=Q1 -> Div (Q3, Q4)=Q2 -> A1 | F1=P: Pow (Q1, Q2)", "answer": "417124 m*s**-1", "context": "CONTEXT:=F1: The relation between velocity and velocity square is \u00bd.=F2: The annual energy demands of US is 475e+12 J=F3: The number of dead US presidents is 39=F4: The average mass of US presidents is 70 kg"}, {"question": "How many times as fast as ants are humans?", "program": "PROGRAM:=Q1: What is the average pace of a human?=Q2: What is the average pace of an ant?=A1: 1.4 m*s**-1=A2: 0.08m*s**-1=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div (Q1, Q2)", "answer": "17.5", "context": "CONTEXT:=F1: The average pace of a human is 1.4m/s=F2: The average average pace of an ant is 0.08 m/s"}, {"question": "How much 1792's USD cost today's USD?", "program": "PROGRAM:=Q1: How many dollars worth is being calculated?=Q2: What is the inflation rate from 1792's USA to today?=A1: $1=A2: 27.13=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "$27.13", "context": "CONTEXT:=F1: 1 dollar worth in current value is being calculated.=F2: The inflation rate from 1792 to today is 27.13 percent."}, {"question": "What is the mass, in kgs, of the moon?", "program": "PROGRAM:=Q1: What is the volume of the moon?=Q2: What is the density of the moon?=A1: 2e+10 km**3=A2: 3.34e+12 kg*km**-3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q2, Q1)", "answer": "6.68e+22 kg", "context": "CONTEXT:=F1: The volume of the moon is 2e+10 cubic km=F2: The density of the moon is 3.34e+12 kg per km cube"}, {"question": "How many balloons would it take to fill the school hall?", "program": "PROGRAM:=Q1: What is the average volume of a school hall?=Q2: What is the average volume occupied by a single balloon in free space?=A1: 36000 ft**3=A2: 0.50 ft**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "72000", "context": "CONTEXT:=F1: The average volume of a school hall is 36000 cubic feet given its ceiling height is 16 feet and surface area to be 209 sq. ft.=F2: The average volume occupied by a single ping pong ball in freespace is 0.0012 cubic feet."}, {"question": "How many Americans paid more than $750 in income tax in 2016?", "program": "PROGRAM:=Q1: How many Americans earn more than 7500 dollars annually in the US?=Q2: What percentage of Americans pay taxes?=A1: 34e+6=A2: 0.54=Q2 -> A2 | F2=Q1 -> A1 | F1 & F3=P: Mul (Q1, Q2)", "answer": "1.80E+07", "context": "CONTEXT:=F1: The number of Americans that earn more than 7500 dollars each year is 34e+6=F2: Around 54 percent of America pays taxes.=F3: Given the minimum tax cut percentage to be 10%"}, {"question": "How long a hot dog can be made from a typical cow?", "program": "PROGRAM:=Q1: What is the length of an average hot dog?=Q2: What is the ratio of meat that can be extracted from a cow to the meat that is used in making hotdogs?=Q3: What is the total meat that can be extracted from cows?=Q4: What is the amount of meat used in making one hotdog?=A1: 15 cm=A2: 274 kg=A3: 0.04 kg=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Div (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "102750 cm", "context": "CONTEXT:=F1: The average length of a hotdog is 15 cm=F2: The total meat that can be extracted from cows is 274 kg.=F3: The amount of meat used in making one hotdog is 0.04 kg"}, {"question": "How many leaves are there in the world?", "program": "PROGRAM:=Q1: How many trees are there in the world?=Q2: What is the average number of leaves on a single tree?=A1: 3e+12=A2: 50000=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "1.50E+17", "context": "CONTEXT:=F1: The total number of trees in the world are 3e+12=F2: The average number of leaves on a single tree are 50000"}, {"question": "What is the density, g/cc, of the Sun?", "program": "PROGRAM:=Q1: What is the mass of the sun?=Q2: What is the volume of the sun?=A1: 2e+33 g=A2: 1.4e+24 cm**3=Q2 -> A2 | F2=Q1 -> A1 | F1=P: Div(Q1, Q2)", "answer": "1.42e+9 g*cm**-3", "context": "CONTEXT:=F1: The mass of sun is 2e+33 gm=F2: The density of sun is 1.4e+24 cc"}, {"question": "How much energy a large rock has at impact?", "program": "PROGRAM:=Q1: What is the height that the rock is falling from?=Q2: What is the product of the mass of the rock and the gravity acting on it?=Q3: What is the mass of the rock?=Q4: What is the acceleration due to gravity acting on it?=A1: 100 m=A2: 2000 kg=A3: 10 m*s**-2=Q4 -> A3 | F3=Q3 -> A2 | F2=Q2 -> Mul (Q3, Q4)=Q1 -> A1 | F1=P: Mul (Q1, Q2)", "answer": "2e+6 J", "context": "CONTEXT:=F1: The height at which the rock is falling from is 100m.=F2: The mass of the rock is 2000 kg=F3: The acceleration due to gravity acting on the rock is 10m/s**2"}]