content string | quality_label int64 | meta string | all-MiniLM-L6-v2_embedding list | doc_id int64 | unique_id string |
|---|---|---|---|---|---|
Multiply Binomials (Including Using FOIL)
Learning Objectives
• Apply the FOIL method to multiply two binomials
• Use a table to multiply two binomials
• Simplify the product of two binomials given a wide variety of variables, constants, signs, and arrangement of terms in the binomial
In the last section we fin... | 4 | [
0.0419921875,
-0.018310546875,
-0.02392578125,
-0.0023956298828125,
-0.02587890625,
-0.052490234375,
0.040283203125,
-0.004669189453125,
-0.04931640625,
0.02978515625,
0.10205078125,
-0.046142578125,
-0.009521484375,
0.0196533203125,
0.03955078125,
0.0703125,
-0.0213623046875,
0.09... | 13,704,000 | 13704000 | |
The last note ended with the following problem:
Thus: geodesics are circles. Or better: straight lines are circles! In fact: half-circles, because their centers are on the x-axis, and our arena is only upper half-plane.
Except that we have missed some solutions. In Conformally Euclidean geometry of the upper... | 4 | [
-0.09716796875,
-0.0274658203125,
0.0517578125,
-0.048583984375,
0.0059814453125,
-0.09130859375,
-0.02001953125,
0.031982421875,
0.08740234375,
-0.01483154296875,
-0.04931640625,
-0.0257568359375,
-0.0235595703125,
0.0201416015625,
0.0189208984375,
-0.047119140625,
-0.040771484375,
... | 13,704,001 | 13704001 | |
Asymmetric Putnam-Fuglede Theorem for (n,k)-Quasi-∗-Paranormal Operators
^1
Department of Mathematics, King Khalid University, P. O. Box 9004, Abha, Saudi Arabia
^2
Department of Mathematics, Mascara University, Mascara 29000, Algeria
^*
Author to whom correspondence should be addressed.
Submission received: 7 O... | 4 | [
-0.04443359375,
0.0277099609375,
0.0264892578125,
-0.01239013671875,
-0.044189453125,
0.00555419921875,
0.10693359375,
-0.091796875,
0.048583984375,
-0.0267333984375,
0.0186767578125,
0.006134033203125,
0.057373046875,
-0.0198974609375,
-0.044921875,
-0.017333984375,
0.019287109375,
... | 13,704,002 | 13704002 | |
Action (physics)
544 VIEWS
Everipedia is now
IQ.wiki
- Join the
IQ Brainlist
and our
Discord
for early access to editing on the new platform and to participate in the beta testing.
Action (physics)
In physics, action is an attribute of the dynamics of a physical system from which the equations of motion of th... | 4 | [
-0.047607421875,
-0.08349609375,
-0.033447265625,
0.05029296875,
-0.034912109375,
0.07177734375,
0.006317138671875,
0.05810546875,
0.08837890625,
0.03125,
0.03271484375,
0.037841796875,
-0.037109375,
0.034912109375,
-0.0003185272216796875,
-0.0174560546875,
0.00396728515625,
-0.006... | 13,704,003 | 13704003 | |
Intuition for LP DualityIntuition for LP Duality
Intuition for LP Duality
January 16, 2022
\[\newcommand{R}{\mathbb{R}}\]
Suppose we have the following basic linear program:
\[\begin{align*} \max_{x_1,x_2} \quad & 3x_1+2x_2 \\ \text{s.t.} \quad & x_1+x_2/2\leq 1, \\ & 4x_1+5x_2\leq 5, \\ & x_1,x_2\geq 0. \end{alig... | 5 | [
-0.05078125,
-0.046142578125,
0.01080322265625,
-0.10986328125,
0.05224609375,
0.038330078125,
-0.01177978515625,
0.0400390625,
-0.052734375,
0.052978515625,
-0.1259765625,
0.01519775390625,
0.0031280517578125,
-0.01007080078125,
0.0087890625,
0.09326171875,
0.09619140625,
-0.01916... | 13,704,004 | 13704004 | |
Supercapacitors Investigations Part II: Time Constant (EIS characterization) Supercapacitor - Application Note 34 - BioLogicSupercapacitors Investigations Part II: Time Constant (EIS characterization) Supercapacitor - Application Note 34 - BioLogic
15 min read
Supercapacitors Investigations Part II: Time Constant (EIS... | 4 | [
-0.08251953125,
0.02294921875,
0.038330078125,
-0.01287841796875,
0.05859375,
-0.0299072265625,
0.047607421875,
0.0693359375,
0.037841796875,
0.0439453125,
0.04931640625,
-0.046875,
0.048828125,
0.103515625,
-0.10986328125,
-0.11279296875,
0.0242919921875,
-0.06201171875,
-0.0061... | 13,704,005 | 13704005 | |
If one of the factors of 3x^2 + 8x - 35 is 3x - 7, how do you find the other factor? | Socratic
If one of the factors of #3x^2 + 8x - 35# is #3x - 7#, how do you find the other factor?
1 Answer
The solution is $\left(x + 5\right)$..
We want to find $a$ and $b$, so that $\left(3 x - 7\right) \left(a x + b\right) = 3 ... | 4 | [
-0.019775390625,
-0.035400390625,
-0.00823974609375,
0.032958984375,
0.042236328125,
0.08544921875,
0.0830078125,
-0.0228271484375,
-0.0830078125,
0.0186767578125,
0.046142578125,
-0.007049560546875,
0.0947265625,
0.051025390625,
0.053466796875,
0.0157470703125,
-0.00738525390625,
... | 13,704,006 | 13704006 | |
PPT - Statistical Quality Control PowerPoint Presentation, free download - ID:334381
2. Three SQC Categories • Traditionaldescriptive statistics • e.g. the mean, standard deviation, and range • Acceptance sampling used to randomly inspect a batch of goods to determine acceptance/
rejection • Does not help to catch... | 5 | [
-0.07177734375,
-0.07763671875,
-0.060791015625,
0.00335693359375,
-0.01708984375,
0.02880859375,
0.0169677734375,
0.0888671875,
0.038818359375,
0.0537109375,
0.061279296875,
0.0123291015625,
0.035400390625,
-0.002593994140625,
-0.004180908203125,
-0.0223388671875,
0.06884765625,
-... | 13,704,007 | 13704007 | |
Duct Sizing - the Equal Friction Method
Sponsored Links
The equal friction method for sizing air ducts is often preferred because it is quite easy to use. The method can be summarized to
1. Compute the necessary air volume flow (m^3/s, cfm) in every room and branch of the system
2. Use ^1) to compute the total air... | 4 | [
0.10400390625,
0.01495361328125,
0.0703125,
0.01458740234375,
-0.041015625,
-0.0311279296875,
-0.07421875,
0.0888671875,
-0.10888671875,
0.03369140625,
-0.0225830078125,
-0.062255859375,
0.05078125,
-0.0693359375,
-0.025146484375,
0.026611328125,
-0.064453125,
0.068359375,
-0.031... | 13,704,008 | 13704008 | |
Inscribed Angles Subtended by the Same Arc
Lesson Video: Inscribed Angles Subtended by the Same Arc Mathematics • Third Year of Preparatory School
In this video, we will learn how to find the measures of inscribed angles subtended by the same arc or by congruent arcs.
Video Transcript
In this video, we’ll learn how ... | 4 | [
-0.07275390625,
-0.0078125,
-0.0024871826171875,
0.05322265625,
0.0146484375,
-0.049072265625,
0.06298828125,
0.025146484375,
0.1259765625,
-0.0576171875,
0.028564453125,
-0.041015625,
0.041015625,
0.099609375,
0.00238037109375,
-0.0537109375,
-0.025146484375,
0.0419921875,
-0.06... | 13,704,009 | 13704009 | |
The Elements of Euclid for the Use of Schools and Colleges
Next, let the solid angle at A be contained by any number of plane angles BAC, CAD, DAE, EAF, FAB: these shall be together less than four right angles.
Let the planes in which the angles are, be cut by a... | 4 | [
-0.01556396484375,
0.055908203125,
0.0137939453125,
-0.06396484375,
-0.034912109375,
-0.0169677734375,
-0.0224609375,
0.0279541015625,
0.0673828125,
0.046142578125,
0.00982666015625,
-0.027587890625,
0.03662109375,
0.033203125,
0.029541015625,
-0.044921875,
-0.0595703125,
-0.015563... | 13,704,010 | 13704010 | |
What is Weight - Definition
What is Weight – Definition
One of the most familiar forces is the weight of a body, which is the gravitational force that the earth exerts on the body. What is Weight – definition
What is Weight
One of the most familiar forces is the weight of a body, which is the gravitational force tha... | 4 | [
-0.003173828125,
-0.008056640625,
-0.0263671875,
0.05224609375,
-0.0128173828125,
-0.028076171875,
0.0888671875,
0.00872802734375,
0.03369140625,
0.01495361328125,
-0.033203125,
-0.10986328125,
-0.0089111328125,
0.0167236328125,
-0.0040283203125,
-0.06640625,
0.037841796875,
0.0284... | 13,704,011 | 13704011 | |
Python Tutorial 4: Simulating Change | Tychos Docs
Python Tutorial 4: Simulating Change
Tutorial Objectives and Overview
It is time to learn about coding repetitive calculations - what is known as iterative calculations. This is essential before moving on to simulating motion.
•
Learn how change the value of ... | 4 | [
-0.0693359375,
-0.011474609375,
-0.03955078125,
0.0152587890625,
-0.0546875,
-0.123046875,
-0.0341796875,
0.0115966796875,
0.05908203125,
0.016845703125,
0.06640625,
-0.0262451171875,
-0.037109375,
0.0216064453125,
0.0296630859375,
-0.036865234375,
-0.0185546875,
-0.0076904296875,
... | 13,704,012 | 13704012 | |
Unit of Ring Question - Cbarker1
• MHB
• Thread starter cbarker1
• Start date
In summary, in order to prove that $-u$ is a unit in $R$, you need to show that there exists an element $v\in R$ such that $v(-u)=(-u)v=1$. This can be done by using the fact that any $x,y\in R$, $
(-x)y=x(-y)=-xy$ and $(-x)(-y)=xy$.
... | 4 | [
-0.020751953125,
0.08056640625,
-0.0140380859375,
-0.0181884765625,
-0.05615234375,
-0.01416015625,
0.0888671875,
-0.046630859375,
-0.055419921875,
-0.11083984375,
0.026611328125,
-0.07470703125,
0.06494140625,
0.037841796875,
0.017333984375,
-0.01953125,
0.03564453125,
-0.03173828... | 13,704,013 | 13704013 | |
Least Common Multiple – LCM Calculator
How the “Least Common Multiple (LCM) Calculator” Works
1. Input your values: Enter two or more numbers separated by spaces into the input field. You can input numbers such as whole numbers, integers, etc. Example: “13 22 66”.
2. Click “Calculate”: After inputting the numbers, ... | 4 | [
0.05712890625,
0.003448486328125,
-0.0654296875,
-0.09326171875,
0.001800537109375,
0.020263671875,
-0.078125,
0.042724609375,
-0.0152587890625,
0.005767822265625,
0.0191650390625,
-0.006500244140625,
0.08642578125,
-0.037353515625,
0.013427734375,
-0.01092529296875,
-0.15234375,
0... | 13,704,014 | 13704014 | |
What They won’t Teach You in Calculus
Pop Video: What They won’t Teach You in Calculus
What They won’t Teach You in Calculus
Video Transcript
Picture yourself as an early calculus student about to begin your first course. The months ahead of you hold within them a lot of hard work, some neat examples, some not-so-ne... | 4 | [
-0.0264892578125,
-0.08154296875,
0.0303955078125,
-0.01904296875,
-0.02734375,
-0.08203125,
-0.0274658203125,
0.0036773681640625,
0.0022430419921875,
0.015380859375,
-0.033935546875,
0.06298828125,
-0.005157470703125,
0.059814453125,
-0.0546875,
0.004730224609375,
-0.0211181640625,
... | 13,704,015 | 13704015 | |
Exponents
The exponent of a number says how many times to use the number in a multiplication.
In 8^2 the "2" says to use 8 twice in a multiplication,
so 8^2 = 8 × 8 = 64
In words: 8^2 could be called "8 to the power 2" or "8 to the second power", or simply "8 squared"
Some more examples:
Example: 5^3 = 5 × 5 × 5 =... | 4 | [
0.04931640625,
0.000026702880859375,
-0.08642578125,
0.05810546875,
-0.055908203125,
-0.06396484375,
0.03564453125,
0.029052734375,
0.0625,
0.01019287109375,
0.0234375,
0.0159912109375,
0.051025390625,
0.0810546875,
0.0181884765625,
0.09033203125,
-0.0712890625,
0.10888671875,
-0... | 13,704,016 | 13704016 | |
Order Statistics
In statistics, a one-value summary of a random sample is called a statistic. Mean, standard deviation, median, min, max of a sample are some of the commonly used statistics. While the computation of
mean and standard deviation use the actual sample values—min, max, and median are computed using only th... | 5 | [
-0.0576171875,
0.01129150390625,
0.029296875,
-0.07373046875,
0.0267333984375,
0.008544921875,
-0.05517578125,
0.03662109375,
0.12109375,
0.09423828125,
0.0174560546875,
0.08740234375,
0.07275390625,
-0.0322265625,
-0.005035400390625,
-0.0439453125,
0.046142578125,
0.0059814453125,... | 13,704,017 | 13704017 | |
Trigonometric substitution
$ewenvironment {prompt}{}{} ewcommand {\ungraded }[0]{} ewcommand {\todo }[0]{} ewcommand {\oiint }[0]{{\large \bigcirc }\kern -1.56em\iint } ewcommand {\mooculus }[0]{\textsf {\textbf {MOOC}\
textnormal {\textsf {ULUS}}}} ewcommand {pnoround }[0]{prounddigits {-1}} ewcommand {pnoroundexp }[0... | 5 | [
-0.0240478515625,
0.07177734375,
-0.0267333984375,
-0.10400390625,
0.0087890625,
-0.03662109375,
0.0869140625,
0.06396484375,
-0.0228271484375,
0.037353515625,
0.1181640625,
-0.13671875,
-0.00005054473876953125,
0.06689453125,
0.052978515625,
-0.045654296875,
-0.047607421875,
-0.02... | 13,704,018 | 13704018 | |
inference categorical data - hypothesis test
I"m trying to understand the outline for categorical data.
With regards to hypothesis testing, I'm having an issue understanding the computation for the p-value.
I'm used to using the formula Z = (xbar - M)/SE and going from there, but I can't understand the code. I know ... | 5 | [
0.046142578125,
0.0673828125,
0.0277099609375,
0.00185394287109375,
0.0184326171875,
-0.059814453125,
0.0262451171875,
0.13671875,
-0.0166015625,
0.080078125,
0.0966796875,
-0.07275390625,
0.06396484375,
-0.0145263671875,
0.047119140625,
0.033203125,
-0.0240478515625,
-0.0854492187... | 13,704,019 | 13704019 | |
How do you solve 9(2 - 3x) - 29 = 8x + 23 - x? | Socratic
How do you solve #9(2 - 3x) - 29 = 8x + 23 - x#?
2 Answers
See a solution process below:
Explanation:
First rewrite the expression as:
$9 \left(2 - 3 x\right) - 29 = 8 x - x + 23$
Next, expand the term in parenthesis on the left side of the equation by mul... | 4 | [
-0.0654296875,
-0.05126953125,
0.0260009765625,
0.0361328125,
0.04736328125,
0.051513671875,
0.0279541015625,
0.047119140625,
-0.064453125,
0.0166015625,
0.06884765625,
-0.0157470703125,
0.09326171875,
-0.006195068359375,
0.0380859375,
-0.0019989013671875,
-0.0869140625,
0.01672363... | 13,704,020 | 13704020 | |
Shearing Deformation
Shearing forces cause shearing deformation. An element subject to shear does not change in length but undergoes a change in shape.
The change in angle at the corner of an original rectangular element is called the and is expressed as
... | 4 | [
-0.076171875,
-0.027099609375,
0.0198974609375,
-0.05224609375,
-0.019287109375,
-0.035888671875,
0.0150146484375,
0.0274658203125,
0.12451171875,
-0.027587890625,
0.04150390625,
0.03125,
-0.0118408203125,
0.040771484375,
-0.011962890625,
-0.0086669921875,
-0.031494140625,
0.021850... | 13,704,021 | 13704021 | |
General Topology — Part 2
General Topology — Part 2 (Continuous Function)
Photo by Drew Beamer on Unsplash
ε-δ Definition of Continuous Function
Remember the ε-δ definition of Continuous Function that you have learnt in your high school ?
CT1. A function f : R → R is said to be continuous at x0 ∈ R if
∀ε>0, ∃δ>0 s... | 5 | [
0.007232666015625,
-0.0235595703125,
0.00579833984375,
-0.00933837890625,
0.0595703125,
0.00640869140625,
-0.002166748046875,
0.057373046875,
-0.032470703125,
-0.047607421875,
0.05810546875,
-0.00738525390625,
0.034912109375,
-0.000629425048828125,
0.0517578125,
-0.040771484375,
-0.0... | 13,704,022 | 13704022 | |
Mathematical Foundations
PyTamaro is based on a principled foundation: algebra. The reasoning about PyTamaro graphics corresponds to the reasoning about algebraic expressions.
Our approach to programming with graphics can work like algebra only because it avoids mutable state.
Once we have a graphic, we cannot modif... | 4 | [
-0.06884765625,
-0.021240234375,
-0.11279296875,
-0.049072265625,
-0.083984375,
-0.03857421875,
-0.0556640625,
0.02734375,
0.072265625,
-0.0211181640625,
0.0286865234375,
0.068359375,
0.037353515625,
0.0103759765625,
-0.00689697265625,
0.0223388671875,
-0.083984375,
0.08447265625,
... | 13,704,023 | 13704023 | |
| What is Piping
What is a Miter Bend? Design Formulas for Miter Bend Calculation
In the Piping and Pipeline Engineering field, Miter Bend plays an important role because standard Elbows are not easily available and economical for larger pipe sizes. The site Engineer or the
Fabrication supervisor is responsible for t... | 5 | [
-0.07568359375,
-0.005523681640625,
0.0196533203125,
-0.046142578125,
-0.0005340576171875,
0.0025177001953125,
-0.07763671875,
0.1845703125,
-0.00836181640625,
0.0050048828125,
-0.046630859375,
-0.0712890625,
-0.0206298828125,
0.03515625,
-0.0634765625,
-0.00958251953125,
-0.09814453... | 13,704,024 | 13704024 | |
The band structure of graphene
Most recent TBTK release at the time of writing: v1.1.1
Updated to work with: v2.0.0
In condensed matter physics, the electronic band structure is one of the most commonly used tools for understanding the electronic properties of a material. Here we take a look at how to set up a
tight... | 4 | [
-0.036376953125,
-0.000804901123046875,
-0.0732421875,
0.00177001953125,
-0.005615234375,
0.020263671875,
0.04833984375,
0.044921875,
-0.0546875,
0.056396484375,
-0.026123046875,
-0.0296630859375,
0.004730224609375,
-0.038330078125,
0.08740234375,
-0.06884765625,
0.06298828125,
-0.... | 13,704,025 | 13704025 | |
` Number of molecules in `1 c c` of hydrogen = `(6.023 xx 10^(23))/(22400) = 2.688 xx 10^(19)`
As hydrogen is a diatomic gas, each molecule has 5 degree of freedom, therefore,
Total number of degree of freedom = `5xx2.
How do you calculate degrees of freedom in thermodynamics?
1. One translational degree of freedom... | 4 | [
-0.004974365234375,
-0.005859375,
-0.111328125,
-0.040283203125,
-0.01226806640625,
0.1318359375,
0.054931640625,
0.025390625,
0.046875,
0.012451171875,
-0.0140380859375,
-0.08056640625,
-0.0128173828125,
-0.0027618408203125,
0.052978515625,
-0.033447265625,
-0.08935546875,
-0.0089... | 13,704,026 | 13704026 | |
A&A 407, 403-421 (2003)
DOI: 10.1051/0004-6361:20030868
Extending the Shakura-Sunyaev approach to a strongly magnetized accretion disc model^
V. I. Pariev^12 - E. G. Blackman^1 - S. A. Boldyrev^3
1 - Department of Physics and Astronomy, University of Rochester, Rochester, NY 14627, USA
2 - P.N. Lebedev Physical In... | 4 | [
-0.0703125,
-0.06884765625,
0.04443359375,
0.09033203125,
0.045654296875,
-0.041259765625,
-0.01531982421875,
-0.051025390625,
0.0152587890625,
-0.05419921875,
-0.05078125,
-0.0869140625,
0.00372314453125,
-0.06298828125,
0.0225830078125,
-0.048095703125,
-0.01300048828125,
-0.0568... | 13,704,027 | 13704027 | |
Written by: Jean Bouchat
using CSV
using DataFrames
df = DataFrame(CSV.File("./Life Expectancy Data.csv", normalizenames=true))
using Plots
using LinearAlgebra
using Statistics
new_df = dropmissing(df)
new_df = new_df[new_df.Year .== 2012, :]
Data
y = new_df.Life_expectancy
A = new_df.BMI
Plot the data
scat... | 4 | [
-0.0284423828125,
0.002197265625,
-0.009033203125,
0.0174560546875,
0.0625,
0.05615234375,
-0.06494140625,
0.000568389892578125,
-0.048095703125,
-0.015380859375,
0.1123046875,
-0.060791015625,
0.0037384033203125,
-0.054443359375,
0.0172119140625,
0.00042724609375,
-0.12890625,
-0.... | 13,704,028 | 13704028 | |
On the Modular Multiplicative Inverse - benjamintoll.com
In my last post, I detailed how you can use the extended Euclidean algorithm to not only determine the greatest common divisor of two numbers but also to determine Bézout’s coefficients. This is
crucial in determining the modular multiplicative inverse of a numbe... | 5 | [
-0.09619140625,
0.007080078125,
-0.04443359375,
-0.05029296875,
0.0712890625,
-0.08984375,
0.06591796875,
0.0191650390625,
0.0184326171875,
-0.0634765625,
-0.001129150390625,
0.045654296875,
0.07861328125,
-0.0255126953125,
-0.048583984375,
0.0140380859375,
-0.034912109375,
0.06689... | 13,704,029 | 13704029 | |
-2.2.1 separable variables y'=\frac{x^2}{y}
-2.2.1 separable variables y'=\frac{x^2}{y}
• MHB
• Thread starter karush
• Start date
In summary, the text discusses separable differential equations and provides a solution for a given equation.
2000
$\textsf{solve the given differential equation}$
$$y'=\frac{x^2}... | 5 | [
-0.035400390625,
-0.0634765625,
0.076171875,
0.0673828125,
0.045654296875,
-0.005157470703125,
-0.00823974609375,
-0.00933837890625,
-0.038330078125,
-0.033935546875,
0.09521484375,
0.0252685546875,
-0.027099609375,
0.01806640625,
0.0087890625,
0.051025390625,
0.01806640625,
-0.052... | 13,704,030 | 13704030 | |
Nonparametric Analysis
A class of data analysis procedures for statistical hypothesis testing that, unlike parametric statistical analysis, makes no assumptions about the sampling distribution of a statistic being
evaluated, nonparametric statistical analysis is also called distribution-free statistical analysis. The t... | 5 | [
-0.07861328125,
0.0252685546875,
-0.03564453125,
0.02099609375,
-0.0262451171875,
-0.030029296875,
-0.08642578125,
0.0201416015625,
0.08251953125,
0.039794921875,
0.0693359375,
-0.06494140625,
0.0133056640625,
-0.002227783203125,
0.0458984375,
-0.12890625,
0.06201171875,
0.00631713... | 13,704,031 | 13704031 | |
STACK Documentation
Documentation home
|
Category index
|
Site map
PartFrac: Answer test results
This page exposes the results of running answer tests on STACK test cases. This page is automatically generated from the STACK unit tests and is designed to show question authors what answer tests
actually do. This in... | 5 | [
-0.0196533203125,
0.0294189453125,
0.044677734375,
0.0869140625,
0.053955078125,
-0.06787109375,
-0.04736328125,
0.050537109375,
-0.06884765625,
-0.028076171875,
0.00150299072265625,
-0.0751953125,
-0.036865234375,
0.02294921875,
0.0028228759765625,
-0.01708984375,
-0.00518798828125,... | 13,704,032 | 13704032 | |
6A The Language of Polynomials
6E - Cubic Functions of f(x) = a(x-h)^3 + k
6E - Cubic Functions of f(x) = a(x-h)^3 + k
6E - Cubic Functions of f(x) = a(x-h)^3 + k
Point of Inflection (POI) Vertical Translations Horizontal Translations
A point of z... | 4 | [
-0.039306640625,
-0.0201416015625,
-0.126953125,
-0.072265625,
-0.0615234375,
-0.023681640625,
-0.0012664794921875,
-0.0419921875,
0.050537109375,
-0.03369140625,
0.1044921875,
-0.00250244140625,
0.00787353515625,
-0.0147705078125,
0.06005859375,
0.0380859375,
-0.10595703125,
0.019... | 13,704,033 | 13704033 | |
helpppp meee plzzzz
Extra Credit
Don't use plagiarized sources. Get Your Custom Essay on
helpppp meee plzzzz
Get a PLAGIARISM-FREE custom essay written for you!
Worth Up to 12 Points
Note: There are three overall questions with sub-questions, and each overall question is worth up to4 points.
Overview... | 5 | [
-0.06005859375,
0.0576171875,
-0.00067901611328125,
0.006134033203125,
0.03369140625,
0.07763671875,
0.0732421875,
0.02978515625,
-0.08740234375,
0.0458984375,
0.03271484375,
-0.048828125,
0.035888671875,
-0.00634765625,
-0.030517578125,
0.043212890625,
0.04736328125,
0.01171875,
... | 13,704,034 | 13704034 | |
4.3.3 The critical frequency of a vibrating plate
Consider a plane wave at frequency $\omega$ propagating on an infinite isotropic plate and driving the motion of air on one side of the plate. The plate motion is governed by this equation, from
section 3.2.3:
$$\rho h \dfrac{\partial^2 w}{\partial t^2}+EK \left[\frac... | 4 | [
-0.0164794921875,
0.06884765625,
0.00787353515625,
0.0267333984375,
-0.005218505859375,
-0.01165771484375,
0.01434326171875,
-0.012939453125,
-0.0299072265625,
0.0035552978515625,
0.11865234375,
-0.044921875,
-0.031494140625,
0.004150390625,
0.0296630859375,
0.052490234375,
0.0198974... | 13,704,035 | 13704035 | |
Non-negative Integer Solutions of
a[1]^k + a[2]^k + a[3]^k + a[4]^k+ a[5]^k + a[6]^k + a[7]^k + a[8]^k + a[9]^k+ a[10]^k+ a[11]^k+ a[12]^k
= b... | 4 | [
-0.0966796875,
0.04052734375,
-0.09033203125,
-0.0267333984375,
-0.03369140625,
0.01513671875,
0.05712890625,
0.004241943359375,
-0.0162353515625,
0.046630859375,
-0.0380859375,
-0.050048828125,
0.04248046875,
0.043212890625,
-0.06103515625,
0.031494140625,
-0.043212890625,
-0.0279... | 13,704,036 | 13704036 | |
Question #59b26 | Socratic
Question #59b26
1 Answer
Explanation:
The trick here is to realize that diluting a solution will cause its concentration to decrease by the factor as its volume increases.
$\text{DF" = V_"diluted"/V_"stock" = c_"stock"/c_"diluted}$
Here $\text{DF}$ is the dilution factor.
In your ca... | 4 | [
0.0242919921875,
0.01019287109375,
0.0673828125,
-0.035888671875,
0.0245361328125,
-0.037841796875,
0.060546875,
0.0693359375,
0.017333984375,
0.00775146484375,
0.0400390625,
0.0167236328125,
-0.0260009765625,
0.006683349609375,
-0.072265625,
0.0152587890625,
0.0289306640625,
0.071... | 13,704,037 | 13704037 | |
Control Systems/System Metrics - Wikibooks, open books for an open world
When a system is being designed and analyzed, it doesn't make any sense to test the system with all manner of strange input functions, or to measure all sorts of arbitrary performance metrics.
Instead, it is in everybody's best interest to test th... | 4 | [
-0.037353515625,
-0.083984375,
-0.08251953125,
-0.0106201171875,
-0.0267333984375,
0.01312255859375,
-0.043212890625,
0.06640625,
0.0771484375,
0.026611328125,
-0.0003757476806640625,
-0.0203857421875,
0.0274658203125,
-0.052490234375,
-0.1005859375,
-0.062255859375,
0.10107421875,
... | 13,704,038 | 13704038 | |
issue-13-article Archives - Chalkdust
They say variety is the spice of life and to us at Chalkdust, maths is life so it makes sense that maths is made better by variety. A variety of topics, a variety of people, a variety of poorly
constructed maths puns. Ulrike Tillmann embodies this ethos with her work bridging the g... | 5 | [
-0.0059814453125,
-0.11865234375,
0.031494140625,
-0.03369140625,
-0.0693359375,
0.025634765625,
-0.01507568359375,
0.0615234375,
-0.059326171875,
0.0025177001953125,
-0.017822265625,
-0.039794921875,
0.00159454345703125,
0.00946044921875,
0.01007080078125,
0.04833984375,
0.010742187... | 13,704,039 | 13704039 | |
Jackson inequality
From Encyclopedia of Mathematics
An inequality estimating the rate of decrease of the best approximation error of a function by trigonometric or algebraic polynomials in dependence on its differentiability and finite-difference
properties. Let $ f $ be a $ 2 \pi $- periodic continuous function on ... | 4 | [
-0.08056640625,
0.038818359375,
-0.024658203125,
0.01275634765625,
0.0242919921875,
0.01153564453125,
-0.008544921875,
0.126953125,
-0.03369140625,
-0.0294189453125,
0.052490234375,
0.016845703125,
0.054931640625,
-0.1318359375,
0.05224609375,
-0.055419921875,
-0.0118408203125,
-0.... | 13,704,040 | 13704040 | |
TIPS for Dips GPR Survey | Scanning
W
hen interpreting GPR data where understanding geologic structure is the goal, quantifying the slope (normally referred to as ‘dip’) of interfaces is often desired. Raw GPR cross-sections are not
‘true’ representations of subsurface geometry; simplistic dip estimates will yield e... | 4 | [
-0.14453125,
0.0034942626953125,
0.09228515625,
0.0005035400390625,
0.0206298828125,
-0.1328125,
-0.109375,
0.05078125,
-0.0286865234375,
-0.04150390625,
-0.05810546875,
-0.09521484375,
-0.030517578125,
0.04345703125,
0.00145721435546875,
-0.027099609375,
-0.04833984375,
-0.0419921... | 13,704,041 | 13704041 | |
ati
For some time I knew it was in the making, now they are ready to launch it:
The $\mathbb{F}_1$ World Seminar, an online seminar dedicated to the “field with one element”, and its many connections to areas in mathematics such as arithmetic, geometry, representation theory and
combinatorics. The organisers are Jaiun... | 4 | [
-0.1318359375,
-0.044189453125,
-0.01422119140625,
0.0888671875,
0.04345703125,
-0.0284423828125,
0.0281982421875,
0.00994873046875,
0.0849609375,
-0.06884765625,
-0.0390625,
0.01202392578125,
-0.0230712890625,
0.0152587890625,
-0.006988525390625,
-0.064453125,
-0.07080078125,
-0.0... | 13,704,042 | 13704042 | |
rate of inflation formula
The inflate rate formula is defined: π = 100 ∗ P 1 − P 0 P 0 where π is the symbol for inflation, P 0 is the current year and P 1 is the next year. The formula for calculating the inflation rate is:
((T2 - … Rate of Inflation Formula = (CPIX+1 – CPIX) / CPIX Here, CPI x means the initial … Whe... | 4 | [
-0.0146484375,
0.01544189453125,
-0.021728515625,
0.04931640625,
0.0308837890625,
-0.031982421875,
-0.0693359375,
0.049072265625,
0.00933837890625,
0.000858306884765625,
0.0791015625,
-0.05419921875,
-0.004150390625,
0.07568359375,
0.0164794921875,
-0.000324249267578125,
-0.104980468... | 13,704,043 | 13704043 | |
ecords
PRP Records
2^13380298-27
This was a collaborative effort from Vincent Diepeveen, Tony Reix, Paul Underwood and Jeff Gilchr... | 4 | [
-0.053955078125,
-0.0001087188720703125,
-0.08740234375,
-0.01171875,
0.080078125,
-0.036865234375,
0.037109375,
0.1044921875,
0.0081787109375,
0.01141357421875,
-0.01904296875,
-0.01416015625,
-0.03466796875,
0.0257568359375,
-0.009765625,
-0.00909423828125,
-0.11376953125,
0.0040... | 13,704,044 | 13704044 | |
C
117 research outputs found
Consider a $N\times n$ matrix $\Sigma_n=\frac{1}{\sqrt{n}}R_n^{1/2}X_n$, where $R_n$ is a nonnegative definite Hermitian matrix and $X_n$ is a random matrix with i.i.d. real or complex standardized
entries. The fluctuations of the linear statistics of the eigenvalues $\operatorname {Tr... | 4 | [
-0.050048828125,
-0.126953125,
-0.048828125,
0.035888671875,
0.0024261474609375,
-0.0140380859375,
0.0230712890625,
0.0030059814453125,
0.0031585693359375,
-0.005584716796875,
0.0830078125,
0.06201171875,
0.000056743621826171875,
-0.091796875,
-0.012451171875,
-0.0390625,
0.003128051... | 13,704,045 | 13704045 | |
" used in TCI '02 Round 2 (Division I Level Two)
Let an R by C (also notated as RxC) matrix mean a matrix with R rows and C columns. Also, for x between 1 and R, inclusive, and y between 1 and C inclusive, let element (x,y) represent the element at
the xth row and yth column (both 1-indexed) of a given R by C matrix.
... | 4 | [
-0.03271484375,
-0.004638671875,
-0.0498046875,
-0.0732421875,
-0.017578125,
-0.00860595703125,
0.00830078125,
-0.0654296875,
-0.0439453125,
0.0067138671875,
-0.043212890625,
-0.01422119140625,
0.06982421875,
0.0257568359375,
-0.06298828125,
0.1162109375,
-0.02783203125,
0.09667968... | 13,704,046 | 13704046 | |
24. Mechanism Acceleration
• The amount that a point on a mechanism speeds up or slows down.
• The acceleration of a point ‘P’ is the first derivative of velocity, or second derivative of position,
• To analyze linear acceleration we must first separate the velocity into a magnitude, and direction.
• We can also c... | 4 | [
-0.1064453125,
0.07373046875,
-0.0869140625,
-0.09130859375,
-0.057373046875,
0.031494140625,
-0.01202392578125,
0.107421875,
0.030517578125,
0.09765625,
0.09716796875,
0.00213623046875,
0.0244140625,
-0.041259765625,
-0.0361328125,
0.0791015625,
-0.0830078125,
0.050048828125,
-0... | 13,704,047 | 13704047 | |
/EBCS/GRADP0
Block Format Keyword Describes the elementary boundary condition of zero pressure gradient. This keyword is not available for SPMD parallel version.
Format
┌──────────────┬──────┬───────┬─────┬─────┬─────┬─────┬─────┬─────┬──────┐
│ (1) │ (2) │ (3) │ (4) │ (5) │ (6) │ (7) │ (8) │ (9) │ (10)... | 4 | [
-0.10791015625,
-0.0225830078125,
-0.03955078125,
-0.091796875,
0.006011962890625,
-0.007568359375,
-0.0126953125,
0.052734375,
-0.056884765625,
-0.0311279296875,
0.0322265625,
-0.06640625,
-0.0361328125,
-0.044189453125,
0.03466796875,
-0.0267333984375,
-0.10400390625,
-0.04101562... | 13,704,048 | 13704048 | |
Constant Multiplier Optimization to Reduce Area
This example shows how to perform a design-level area optimization in HDL Coder™ by converting constant multipliers into shifts and adds using canonical signed digit (CSD) techniques. The CSD
representation of multiplier constants for example, in gain coefficients or fil... | 4 | [
-0.054443359375,
0.0537109375,
-0.07275390625,
-0.0712890625,
-0.039794921875,
-0.059814453125,
-0.046630859375,
0.032470703125,
-0.04296875,
-0.06396484375,
-0.07861328125,
-0.014404296875,
0.051025390625,
-0.041748046875,
0.01226806640625,
-0.0137939453125,
-0.07275390625,
0.1201... | 13,704,049 | 13704049 | |
Depression in freezing point numerical part 3
Posted 6 years ago by lavannya bhatia
Depression in freezing point-
source : surfguppy.com
Depression in freezing point- Numerical
Question 1) The depression of freezing point of a solution containing 3 gm of a solute in 22 gm of water is 1.45 ^0C . Determine molecula... | 4 | [
-0.02294921875,
0.01312255859375,
0.0019989013671875,
0.0576171875,
0.01190185546875,
0.0211181640625,
0.0498046875,
0.08935546875,
0.0169677734375,
0.00390625,
-0.01470947265625,
-0.1142578125,
0.0294189453125,
-0.012451171875,
0.0260009765625,
0.06640625,
-0.08349609375,
-0.00086... | 13,704,050 | 13704050 | |
help counting
#1
0
0
22
1
In how many ways can $4$ balls be placed in $8$ boxes if the balls and boxes are both distinguishable?
In how many ways can $4$ balls be placed in $8$ boxes if neither the balls nor the boxes are distinguishable?
In how many ways can $4$ balls be placed in $8$ boxes if the balls are ind... | 4 | [
0.10498046875,
0.0286865234375,
-0.0108642578125,
-0.00323486328125,
-0.04296875,
0.05419921875,
0.057373046875,
0.0181884765625,
0.027099609375,
0.020263671875,
-0.03564453125,
0.0031585693359375,
0.037353515625,
0.07958984375,
-0.0130615234375,
0.0169677734375,
0.0245361328125,
-... | 13,704,051 | 13704051 | |
in
max independent set
oh god *shudders*
this problem was a debugging nightmare
so the first thing i did was go to the wikipedia page for wth an independent set actually was, and it did not disappoint
scrolling down a little we can see that this problem is equivalent to the clique problem on the complement graph
so... | 4 | [
0.00946044921875,
-0.002899169921875,
0.08349609375,
-0.0478515625,
0.06591796875,
-0.0634765625,
0.0419921875,
0.0458984375,
-0.0966796875,
-0.0133056640625,
-0.032958984375,
-0.00019741058349609375,
0.08056640625,
-0.0125732421875,
0.04150390625,
0.05078125,
0.07275390625,
-0.020... | 13,704,052 | 13704052 | |
Stock Fair Value Calculation Using DDM Equity Valu...
As you may know, there are three main equity valuation models.
• The Discounted Cash Flow (DCF) model discounts a company's free cash flow by the WACC (weighted average cost of capital), calculates the company's Terminal Value, discounts it by the WACC, sums
... | 4 | [
-0.031982421875,
-0.057861328125,
-0.0810546875,
-0.048828125,
-0.03515625,
-0.0189208984375,
0.0118408203125,
0.047119140625,
-0.013671875,
0.00726318359375,
-0.021484375,
-0.07861328125,
0.02490234375,
-0.03466796875,
0.004364013671875,
-0.03564453125,
0.03515625,
0.05712890625,
... | 13,704,053 | 13704053 | |
Conformational Entropy
A guide to the calculation of conformational entropies with CREST.
Important: CREST’s conformational entropy procedure currently does not work well for non-covalent systems and should be considered mainly for covalent molecular systems.
Conformational Entropy Overview
The conformation (or c... | 4 | [
-0.05029296875,
-0.0693359375,
-0.044677734375,
-0.0147705078125,
-0.0291748046875,
-0.0181884765625,
-0.03857421875,
0.091796875,
0.01806640625,
0.0125732421875,
-0.00946044921875,
-0.03369140625,
0.005615234375,
0.0301513671875,
-0.0106201171875,
-0.01263427734375,
-0.05712890625,
... | 13,704,054 | 13704054 | |
Drawing a pre-defined triangle that touches 3 pre-defined lines at all 3 points
• MHB
• Thread starter Alaskan Son
• Start date
In summary, Michael was trying to figure out how to take a pre-defined triangle and position it so that the three points perfectly contact the three lines. He is not very advanced math... | 5 | [
-0.057861328125,
0.024169921875,
-0.040283203125,
-0.08984375,
-0.072265625,
0.03173828125,
-0.024169921875,
0.00726318359375,
0.013916015625,
0.0458984375,
-0.0269775390625,
-0.072265625,
-0.0712890625,
0.059814453125,
0.051513671875,
0.0252685546875,
-0.035400390625,
-0.048583984... | 13,704,055 | 13704055 | |
Students can Download 1st PUC Electronics Previous Year Question Paper March 2017 (South), Karnataka 1st PUC Electronics Model Question Papers with Answers helps you to revise the complete syllabus.
Karnataka 1st PUC Electronics Previous Year Question Paper March 2017 (South)
Time: 3.15 Hours
Max Marks: 70
Instruct... | 5 | [
-0.1318359375,
0.0947265625,
-0.0130615234375,
-0.0029754638671875,
-0.04052734375,
0.048583984375,
0.00494384765625,
0.07666015625,
-0.07470703125,
0.059814453125,
0.049072265625,
-0.046875,
0.0654296875,
0.0035858154296875,
-0.0157470703125,
0.0634765625,
-0.062255859375,
-0.0157... | 13,704,056 | 13704056 | |
Stefan Siegert
ggplot calligraphy
One of the characteristic effects used in hand lettering and calligraphy is to vary the line width by being light on upstrokes and using more pressure on downstrokes.
Here I'm using the R package ggplot2 (and a bit of data wrangling with dplyr), to create that effect in data visualis... | 4 | [
-0.057373046875,
-0.0888671875,
0.0252685546875,
-0.0260009765625,
-0.076171875,
-0.056640625,
0.00567626953125,
-0.0186767578125,
-0.036376953125,
-0.0147705078125,
-0.00927734375,
0.01226806640625,
-0.041748046875,
0.095703125,
0.055908203125,
0.055908203125,
0.03076171875,
0.004... | 13,704,057 | 13704057 | |
Fluid Statics
28 Aug 2024
Fluid Statics: The Fundamentals
Fluid statics is a branch of fluid mechanics that deals with the study of fluids at rest, without any motion or flow. This fundamental concept is crucial in understanding various engineering and
scientific applications, such as buoyancy, pressure vessels, an... | 4 | [
-0.07080078125,
0.01263427734375,
-0.08056640625,
-0.0240478515625,
0.007293701171875,
0.017333984375,
0.0164794921875,
0.1279296875,
0.005859375,
-0.033447265625,
-0.043701171875,
-0.04052734375,
0.09814453125,
0.046142578125,
-0.1396484375,
-0.0308837890625,
-0.0167236328125,
0.0... | 13,704,058 | 13704058 | |
None
previous curve 2D curves 3D curves surfaces fractals polyhedra
SWIMMING DOG CURVE
The swimming dog curve is the trajectory of a dog in a river, resisting to a linear current with speed O and the current flows in the directi... | 4 | [
-0.0201416015625,
-0.07666015625,
-0.0031890869140625,
0.0205078125,
-0.0498046875,
-0.025146484375,
-0.041259765625,
-0.019287109375,
0.03466796875,
0.01422119140625,
0.07275390625,
-0.048583984375,
0.007598876953125,
0.1337890625,
-0.0576171875,
0.042724609375,
-0.08740234375,
-0... | 13,704,059 | 13704059 | |
ion
Solve each equation for \(y .\) Assume a and b are positive numbers. $$a y^{2}+3 y-a y=3$$
Short Answer
Expert verified
The solutions are: y = 1 and y = -3/a.
Step by step solution
01
- Combine Like Terms
Start by combining like terms on the left-hand side of the equation. Combine the terms involving y to ... | 4 | [
-0.042236328125,
-0.0361328125,
-0.037353515625,
-0.0020294189453125,
-0.08154296875,
0.07666015625,
0.0062255859375,
-0.04541015625,
0.0634765625,
0.0595703125,
0.09423828125,
-0.0289306640625,
0.0079345703125,
0.053955078125,
0.04638671875,
0.0201416015625,
-0.09375,
-0.002655029... | 13,704,060 | 13704060 | |
(Solved) - A charity organization hosts a raffle drawing at a fund raising... (1 Answer) | Transtutors
We store cookies data for a seamless user experience. To know more check the Privacy Policy
» » »
1. A charity organization hosts a raffle drawing at a...
A charity organization hosts a raffle drawing at a fun... | 4 | [
-0.022705078125,
0.00653076171875,
-0.0291748046875,
-0.060302734375,
0.0140380859375,
0.04296875,
0.099609375,
0.031005859375,
0.04736328125,
0.08203125,
-0.0089111328125,
-0.07470703125,
0.07421875,
0.01129150390625,
0.0517578125,
0.031005859375,
0.03857421875,
-0.0703125,
-0.0... | 13,704,061 | 13704061 | |
e Aptitude Questions
1. A number x when divided by 289 leaves 18 as a remainder. The same number when divided by 17 leaves y as a remainder. The value of y is
1. 3
2. 1
3. 5
4. 2
Answer: Option B
Here, the first divisor (289) is a multiple of second divisor (17)
∴ Required remainder =... | 4 | [
-0.07470703125,
0.06396484375,
-0.01226806640625,
-0.0791015625,
0.045166015625,
-0.0181884765625,
0.0439453125,
0.01123046875,
-0.046630859375,
0.0166015625,
0.08203125,
-0.06494140625,
0.00927734375,
0.0189208984375,
-0.00469970703125,
0.0264892578125,
-0.10546875,
-0.0400390625,... | 13,704,062 | 13704062 | |
Editorial - AtCoder Regular Contest 127
Official
Let us subtract \(1\) from \(X\) to consider it as \(0\)-based. Additionally, since every string on the blackboard begins with \(1\), let us assume that it does not exist. (For instance, we see 1 as
an empty string.)
Let us gradually determine the string in question fr... | 4 | [
0.0113525390625,
0.0257568359375,
0.004638671875,
0.0113525390625,
-0.05322265625,
-0.00592041015625,
0.0079345703125,
0.0230712890625,
-0.00555419921875,
-0.06591796875,
-0.0849609375,
-0.0625,
0.04736328125,
-0.043212890625,
-0.0439453125,
0.054443359375,
0.0030670166015625,
-0.1... | 13,704,063 | 13704063 | |
Multiplication of two subset of variables variables
Hello,
I have a problem with the set n (optimization variables), which can be devided in two sets a(n) and b(n) with equal cardinality. In my model, I want to minimize the sum of the product of the
(ordered) elements of the two sets, i.e.
obj.. cost =e= sum(a, x(a)... | 4 | [
0.0111083984375,
0.003936767578125,
-0.09130859375,
-0.08740234375,
-0.07763671875,
0.026611328125,
0.0673828125,
-0.05224609375,
-0.01324462890625,
0.000946044921875,
-0.0634765625,
-0.060546875,
0.09521484375,
-0.023193359375,
0.052734375,
0.09228515625,
0.0194091796875,
0.046875... | 13,704,064 | 13704064 | |
The Standard Error (and a bootstrapping bonus!!!) - StatQuest!!!
The Standard Error (and a bootstrapping bonus!!!)
The standard error isn’t just some error that we all make (as in “Dude, did you see Jimmy at the bar last night? He made the standard error…”), it’s a measure of how much we can expect the mean to
change ... | 5 | [
-0.046630859375,
0.04541015625,
0.03466796875,
0.0625,
0.01806640625,
-0.0283203125,
-0.11572265625,
0.11572265625,
0.019775390625,
0.05029296875,
-0.05224609375,
0.0250244140625,
0.1142578125,
-0.03857421875,
-0.052734375,
-0.08984375,
0.005218505859375,
-0.017333984375,
-0.0466... | 13,704,065 | 13704065 | |
The n-Category Café
Large Sets 9
Posted by Tom Leinster
Previously: Part 8. Next: Part 9.5
Today I’ll talk about inaccessibility. A set is said to be “inaccessible” if it cannot be reached or accessed from below using certain operations. We’ve seen this rough idea before — but which
operations are the ones in play h... | 4 | [
-0.00848388671875,
-0.046142578125,
-0.041748046875,
0.0189208984375,
0.04052734375,
0.003936767578125,
-0.0291748046875,
0.0159912109375,
-0.0247802734375,
-0.02783203125,
-0.05517578125,
-0.0003337860107421875,
-0.01263427734375,
-0.0247802734375,
0.048828125,
-0.03857421875,
0.114... | 13,704,066 | 13704066 | |
RoughPy - SciPy Proceedings
RoughPy
Streaming data is rarely smooth
Abstract¶
Rough path theory is a branch of mathematics arising out of stochastic analysis. One of the main tools of rough path analysis is the signature, which captures the evolution of an unparametrised path
including the order in which events occu... | 4 | [
-0.10400390625,
-0.05517578125,
0.07763671875,
-0.01611328125,
0.01153564453125,
-0.11474609375,
-0.052490234375,
0.02587890625,
0.0025787353515625,
-0.08544921875,
-0.023681640625,
0.045166015625,
-0.01336669921875,
0.045166015625,
-0.06689453125,
0.018310546875,
-0.045654296875,
... | 13,704,067 | 13704067 | |
Center of mass
Introduction to center of mass
• Until now we have focused on describing motion of a single particle in one, two or three dimensions. By particle we mean to say that it has a size negligible in comparison to the path traveled by
it.
• When we studied Law's of motion we have applied them even to ... | 5 | [
0.0208740234375,
-0.039794921875,
-0.00701904296875,
0.033447265625,
0.0250244140625,
-0.01519775390625,
-0.054931640625,
0.07470703125,
0.0703125,
0.099609375,
0.0228271484375,
0.018310546875,
-0.056884765625,
-0.0115966796875,
0.0311279296875,
-0.08935546875,
-0.0074462890625,
0.... | 13,704,068 | 13704068 | |
Open-Source Internship opportunity by OpenGenus for programmers. Apply now.
In this article, we have explained the different cases like worst case, best case and average case Time Complexity (with Mathematical Analysi... | 5 | [
0.0250244140625,
0.01611328125,
0.0419921875,
-0.051025390625,
0.021484375,
-0.0859375,
-0.057373046875,
0.045654296875,
0.0284423828125,
0.037841796875,
-0.031494140625,
0.13671875,
-0.0172119140625,
0.0498046875,
-0.07177734375,
-0.0189208984375,
-0.00811767578125,
-0.01239013671... | 13,704,069 | 13704069 | |
CourseNana | COMP528 Multi-Core and Multi-Processor Programming - Assignment 1: The Travelling Salesman Problem
COMP528
In this assignment, you are asked to implement 2 algorithms for the Travelling Salesman Problem. This document explains the operations in detail, so you do not need previous knowledge. You are
encour... | 5 | [
-0.0107421875,
0.004058837890625,
-0.0771484375,
0.0009613037109375,
-0.05322265625,
-0.0262451171875,
-0.0029296875,
0.0517578125,
-0.1015625,
0.048095703125,
-0.0234375,
0.0272216796875,
-0.0018310546875,
0.017333984375,
-0.024658203125,
0.06201171875,
0.042236328125,
-0.04077148... | 13,704,070 | 13704070 | |
Study on Icing Environment Judgment Based on Radar Data
^1
Collaborative Innovation Center on Forecast and Evaluation of Meteorological Disasters, Key Laboratory for Aerosol-Cloud-Precipitation of China Meteorological Administration, Nanjing University of
Information Science and Technology, Nanjing 210044, China
^2
... | 4 | [
-0.0185546875,
0.00927734375,
0.034912109375,
0.046142578125,
0.09912109375,
-0.056396484375,
0.01361083984375,
0.08203125,
-0.0150146484375,
0.04296875,
-0.083984375,
-0.0380859375,
0.0194091796875,
0.00136566162109375,
-0.041015625,
-0.0174560546875,
-0.05419921875,
-0.1513671875... | 13,704,071 | 13704071 | |
Stewart, Clegg, Watson. Calculus Early Transcendentals, 2021 9th edition. page 370. Problem 24.
24. Given a sphere with radius r, find the height of a pyramid of minimum volume whose base is a square and whose base and triangular faces are all tangent to the sphere. What if the base of the
pyramid is a re... | 5 | [
0.043212890625,
0.08935546875,
0.06298828125,
0.001800537109375,
-0.054443359375,
0.00012063980102539062,
-0.0079345703125,
0.072265625,
0.0069580078125,
0.0296630859375,
-0.05859375,
-0.0027008056640625,
0.001495361328125,
0.061279296875,
-0.0301513671875,
-0.083984375,
-0.051757812... | 13,704,072 | 13704072 | |
Rule #2:Electrons do the moving.Protons do not.
┌─────────────────────────────────────────────────────────────────────────────────────┐
│You can’t touch this! │
│ ... | 4 | [
-0.0234375,
-0.06591796875,
0.0546875,
0.060791015625,
0.04833984375,
-0.016845703125,
0.10546875,
0.01068115234375,
0.033203125,
0.0166015625,
0.12109375,
-0.0595703125,
0.007568359375,
0.044677734375,
-0.0128173828125,
-0.06494140625,
0.01458740234375,
-0.03759765625,
-0.049316... | 13,704,073 | 13704073 | |
at
Quadratic Equations - Solutions by Completing the Square Method
Consider the following identities
x^2+2ax+a^2=(x+a)^2
x^2-2ax+a^2=(x-a)^2
These trinomials are perfect squares. The highest power x^2 has unity (i.e., 1) as its coefficient. In this case, the term without an x (the constant term) must equal the squa... | 4 | [
-0.03271484375,
0.08251953125,
0.0791015625,
0.1044921875,
-0.0281982421875,
0.06396484375,
-0.06640625,
0.012451171875,
0.04052734375,
-0.002838134765625,
0.064453125,
-0.028076171875,
-0.00885009765625,
0.054931640625,
-0.039794921875,
0.017333984375,
-0.03515625,
0.06982421875,
... | 13,704,074 | 13704074 | |
Vector Norms: A Quick Guide | Built In
Many applications like information retrieval, personalization, document categorization, image processing, and so on, rely on the computation of similarity or dissimilarity between items. Two items
are considered similar if the distance between them is small, and vice versa.
So, h... | 4 | [
-0.00077056884765625,
-0.04345703125,
-0.0869140625,
-0.06640625,
0.07958984375,
0.0234375,
-0.0206298828125,
-0.0301513671875,
-0.0125732421875,
-0.033935546875,
0.01348876953125,
0.05810546875,
0.0693359375,
0.0615234375,
-0.0947265625,
0.0301513671875,
0.05224609375,
-0.01092529... | 13,704,075 | 13704075 | |
Concept of heat and work
Concept of heat and work
Work
The product of force and displacement is known as work. i.e.,
Work = Force × Displacement
W = F × ℓ
Consider a gas enclosed in a cylinder fitted with a frictionless piston.
Suppose,
a = area of cross section of the cylinder.
p = pressure of the p... | 4 | [
-0.1181640625,
0.003021240234375,
0.00921630859375,
0.0234375,
-0.00616455078125,
-0.0380859375,
0.0128173828125,
-0.0283203125,
0.048828125,
0.07666015625,
0.003631591796875,
-0.00933837890625,
0.072265625,
0.033935546875,
0.00933837890625,
-0.035888671875,
-0.004302978515625,
0.0... | 13,704,076 | 13704076 | |
Definition and Use
Telecom Dictionary - Definitions of terms
Signaling Rate Definition and Use
Signaling Rate - The... | 4 | [
-0.040283203125,
-0.0166015625,
-0.031494140625,
-0.0546875,
-0.05224609375,
-0.0556640625,
-0.00958251953125,
0.0703125,
0.0654296875,
-0.022705078125,
-0.0022735595703125,
0.0086669921875,
0.03369140625,
-0.0218505859375,
0.06298828125,
0.0031585693359375,
0.04736328125,
-0.02905... | 13,704,077 | 13704077 | |
What Is A Radicand? (3 Important Things To Know) | jdmeducational
What Is A Radicand? (3 Important Things To Know)
When we deal with radicals, we need to know the various parts and how they affect the value of the radical. For example, the index of a radical is important, but we also need to understand the
radicand.... | 4 | [
-0.01055908203125,
-0.0087890625,
-0.0986328125,
0.08251953125,
-0.0230712890625,
-0.049072265625,
-0.04931640625,
0.05419921875,
0.07373046875,
-0.0064697265625,
0.01165771484375,
0.042724609375,
0.027099609375,
0.03955078125,
-0.01287841796875,
-0.01263427734375,
-0.0771484375,
0... | 13,704,078 | 13704078 | |
How do you determine whether the mean value theorem applies to f(x)=3x-x^2? | Socratic
How do you determine whether the mean value theorem applies to #f(x)=3x-x^2#?
1 Answer
The hypotheses of the Mean Value Theorem are:
(1) $f$ is continuous on closed interval $\left[a , b\right]$ and
(2) $f$ is differentiable on o... | 4 | [
0.04345703125,
-0.033447265625,
-0.064453125,
-0.0244140625,
-0.10302734375,
0.051513671875,
0.0167236328125,
0.044189453125,
0.060791015625,
0.046875,
0.02392578125,
-0.00811767578125,
0.109375,
-0.01123046875,
0.02880859375,
-0.037109375,
-0.026611328125,
-0.09326171875,
0.0629... | 13,704,079 | 13704079 | |
HTML5 Canvas : Collision Detection - ZDY ' LOVE | 关于摄影、旅行、户外、游记、攻略、感想、编程...
In 2D environment, the common collision detection methods are as follows:
External figure discrimination
• Axisymmetric bounding box, i.e. rectangle without rotation.
• Circular collision
• Circle and rectangle (no rotation)
• Circle ... | 4 | [
-0.0128173828125,
0.0101318359375,
-0.01043701171875,
-0.09619140625,
0.06591796875,
-0.1103515625,
-0.009765625,
0.00067138671875,
0.035888671875,
-0.002899169921875,
-0.07177734375,
0.039794921875,
0.059326171875,
0.11572265625,
0.006683349609375,
-0.051513671875,
0.0225830078125,
... | 13,704,080 | 13704080 | |
How can I estimate the 2 parameters of this signal?
1 year ago
●18 replies●
latest reply 1 year ago
●
223 views
I have a digital signal of fixed length (e.g. 100 samples). Somewhere within this signal is a contiguous region characterized by "low variance". The remainder of the signal is characterized by
significan... | 4 | [
-0.0162353515625,
0.0027923583984375,
0.1064453125,
-0.01104736328125,
-0.058349609375,
-0.03271484375,
-0.080078125,
0.035400390625,
-0.06103515625,
-0.08203125,
-0.06298828125,
0.0037994384765625,
-0.031982421875,
0.0098876953125,
0.00799560546875,
0.0076904296875,
0.042724609375,
... | 13,704,081 | 13704081 | |
6.6 Trigonometric functions
Textbook Exercise 6.6
Sketch the graph of \(y=2\tan\theta +1\) for \(\theta \in \left[0°;360°\right]\).
Use your calculator to complete the following table.
Choose an appropriate scale and plot the values with \(\theta\) on the \(x\)-axis and \(\tan\theta\) on the \(y\)-axis. Round your ... | 4 | [
-0.0059814453125,
-0.019287109375,
-0.0185546875,
-0.07275390625,
-0.01446533203125,
-0.00909423828125,
0.0211181640625,
0.0267333984375,
0.00970458984375,
0.00555419921875,
0.1025390625,
-0.0966796875,
-0.0028533935546875,
0.07861328125,
0.0849609375,
-0.00054168701171875,
-0.106445... | 13,704,082 | 13704082 | |
NCAAIET - 2024 (Volume 12 – Issue 01)
Mathematical Modeling Of Digitally Controlled RF Self-Interference Canceller for Full-Duplex Transceiver
DOI : 10.17577/IJERTCONV12IS01009
Download Full-Text PDF Cite this Publication
K.A.Muthulakshmi, R.Yogeshwari, V.Nithyapoorani, 2024, Mathematical Modeling Of Digitally Con... | 4 | [
0.0291748046875,
0.06005859375,
-0.035888671875,
0.038330078125,
-0.064453125,
-0.06201171875,
-0.0166015625,
0.04736328125,
0.005523681640625,
0.04931640625,
0.0169677734375,
0.03955078125,
0.029052734375,
-0.0517578125,
-0.0274658203125,
0.03955078125,
0.01470947265625,
-0.037109... | 13,704,083 | 13704083 | |
Calculating the Pressure on an Angled Slab Due to the Weight of Object
Question Video: Calculating the Pressure on an Angled Slab Due to the Weight of Object Physics • Second Year of Secondary School
A cube sits on a slab of wood which is mounted at an angle of 15 degrees to the horizontal, as shown in the figure. The... | 4 | [
0.002471923828125,
0.0341796875,
-0.000759124755859375,
-0.02685546875,
0.02294921875,
-0.041259765625,
-0.0247802734375,
0.0703125,
0.0341796875,
0.05419921875,
0.0361328125,
-0.078125,
-0.00982666015625,
0.087890625,
-0.02880859375,
0.06005859375,
-0.039794921875,
0.039794921875,... | 13,704,084 | 13704084 | |
lecture2
Claim: φ ⇒ ¬ ¬ φ
Proof: Assume φ, we need to show (¬ φ) ⇒ ⊥.
So assume φ ⇒ ⊥; we need to show ⊥.
By combining the asumptions φ and φ ⇒ ⊥,
we obtain ⊥.
Grundlagenstreit
Realizability
─────────────
"HA ⊢ φ" is an abbreviation for: There is an HA-proof of the sequent "⊤ ⊢ φ".
Soundness ... | 5 | [
-0.0576171875,
-0.05712890625,
-0.00823974609375,
-0.033203125,
0.032958984375,
0.048095703125,
0.054443359375,
0.03271484375,
0.0166015625,
0.00162506103515625,
0.0174560546875,
0.0419921875,
0.025390625,
-0.00457763671875,
0.0189208984375,
-0.059326171875,
0.00677490234375,
0.005... | 13,704,085 | 13704085 | |
Efficient FSK/PSK Modulator Uses Multichannel DDS to Switch at Zero Crossings
Frequency-shift keying (FSK) and phase-shift keying (PSK) modulation schemes are used in digital communications, radar, RFID, and numerous other applications. The simplest form of FSK uses two
discrete frequencies to transmit binary informati... | 4 | [
0.024169921875,
0.04833984375,
-0.1484375,
-0.046142578125,
0.00136566162109375,
-0.0419921875,
0.025390625,
0.0062255859375,
0.026123046875,
0.007171630859375,
-0.047607421875,
-0.0218505859375,
0.043701171875,
-0.140625,
0.0927734375,
-0.0224609375,
-0.003265380859375,
0.03930664... | 13,704,086 | 13704086 | |
Finding the Coefficient of Variation for a Discrete Random Variable
Question Video: Finding the Coefficient of Variation for a Discrete Random Variable Mathematics • Third Year of Secondary School
Let 𝑋 denote a discrete random variable that can take the values −1, 0, and 1. Given that 𝑋 has a probability distributi... | 4 | [
-0.004913330078125,
-0.003570556640625,
0.061767578125,
-0.000946044921875,
0.0177001953125,
-0.0103759765625,
0.07861328125,
0.037841796875,
0.10986328125,
0.0308837890625,
0.03662109375,
-0.11669921875,
0.06005859375,
0.0252685546875,
0.04931640625,
-0.0810546875,
0.035888671875,
... | 13,704,087 | 13704087 | |
ev
Shannon Entropy
Claude E. Shannon's book, "The Mathematical Theory of Communication", is very accessible. The main points about how entropy is defined and derived along with the "Fundamental Theorem for a Discrete
Channel With Noise" is digested below.
Entropy
Entropy can be defined as the number of bits it take... | 4 | [
0.08154296875,
-0.046875,
0.01019287109375,
-0.0225830078125,
-0.03759765625,
0.03125,
0.0859375,
-0.0189208984375,
0.130859375,
-0.0208740234375,
-0.00872802734375,
0.06884765625,
0.08837890625,
-0.0390625,
-0.0091552734375,
0.0255126953125,
0.018798828125,
-0.042236328125,
-0.0... | 13,704,088 | 13704088 | |
Interagency Modeling and Analysis Group
Introduction
MML events model discrete changes of physical and physiological state such as voltage transitions, heart beats, etc. Events also provide a mechanism for calculation of recursive functions, such as
Fibonacci numbers. Event-driven variables can freely intermix with co... | 4 | [
-0.07568359375,
-0.0203857421875,
0.0234375,
0.040771484375,
-0.0810546875,
-0.0223388671875,
-0.024658203125,
0.0296630859375,
0.123046875,
0.01373291015625,
-0.00225830078125,
-0.048828125,
0.000698089599609375,
0.031494140625,
-0.05419921875,
-0.01300048828125,
-0.0198974609375,
... | 13,704,089 | 13704089 | |
Lesson Explainer: Applying the Pythagorean Theorem to Pyramids and Cones
In this explainer, we will learn how to identify the parts of pyramids and cones and use the Pythagorean theorem to find their dimensions.
We recall that the Pythagorean theorem describes the relationship between the lengths of the three sides of... | 4 | [
0.020263671875,
0.041015625,
-0.0205078125,
-0.00982666015625,
-0.048095703125,
-0.00848388671875,
-0.060546875,
0.0135498046875,
0.0142822265625,
0.01708984375,
-0.039306640625,
-0.01043701171875,
-0.06298828125,
0.068359375,
0.028076171875,
-0.04931640625,
-0.060546875,
0.0629882... | 13,704,090 | 13704090 | |
Which of the following ring is not an Artinian ring?
Which of the following ring is not an Artinian ring?
commutative Noetherian ring
The ring of integers is a commutative Noetherian ring but is not Artinian. This means that not all prime ideals in Z are maximal.
Is Artinian ring commutative?
Commutative Artinian r... | 4 | [
-0.0419921875,
0.0240478515625,
-0.10107421875,
-0.0050048828125,
0.00537109375,
-0.091796875,
-0.02880859375,
-0.056884765625,
-0.00182342529296875,
-0.052490234375,
-0.0042724609375,
0.047607421875,
0.078125,
0.01220703125,
-0.022216796875,
-0.0206298828125,
-0.0284423828125,
-0.... | 13,704,091 | 13704091 | |
AdaBoost Ensemble Model
Table of content:
1. Introduction:
Adaptive Boosting or AdaBoost is a boosting ensemble technique that takes low variance and high bias models and uses the additive combination to reduce bias while keeping variance low.
AdaBoost is most often used in computer vision for face detection and i... | 4 | [
-0.06787109375,
-0.0693359375,
-0.011474609375,
0.05859375,
0.09814453125,
-0.0089111328125,
0.0137939453125,
0.03857421875,
-0.06591796875,
0.029052734375,
-0.0859375,
-0.05078125,
0.0057373046875,
-0.05224609375,
-0.0693359375,
0.004974365234375,
0.0546875,
-0.0201416015625,
0.... | 13,704,092 | 13704092 | |
How do you solve for y in $8x - 8y = 5$?
Hint: First of all take the given equation and move all the terms without “y” on the right hand side of the equation and simplify the equation using basic mathematics rules making the subject “y” to
get the required resultant value.
Complete step-by-step solution:
Take the give... | 4 | [
-0.03857421875,
0.006256103515625,
0.07421875,
0.01611328125,
0.0123291015625,
0.00970458984375,
0.00885009765625,
0.0294189453125,
-0.07080078125,
0.0137939453125,
0.07666015625,
0.0625,
0.0849609375,
0.10009765625,
0.0279541015625,
0.12060546875,
-0.09423828125,
0.001663208007812... | 13,704,093 | 13704093 | |
Biordered set
Jump to navigation Jump to search
This article's
tone or style may not reflect the encyclopedic tone used on Wikipedia
.
(November 2012) (Learn how and when to remove this template message)
A biordered set ("boset") is a mathematical object that occurs in the description of the structure of the s... | 4 | [
-0.057861328125,
0.05712890625,
-0.0400390625,
-0.0439453125,
-0.1064453125,
0.060302734375,
0.0081787109375,
0.01336669921875,
0.035888671875,
0.07666015625,
-0.060302734375,
0.01116943359375,
0.031982421875,
0.020751953125,
-0.02001953125,
-0.0174560546875,
0.018798828125,
-0.017... | 13,704,094 | 13704094 | |
Logarithms
I want to write a quick reminder about what logarithms are. Here is the main formula about what a logarightms is:
$y = log_{a}(x) \text{ when } x = a^{y}ewline 2^{3} = 8 \text{ then } log_{2}(8) = 3$
Its is also considered to be the reverse of an exponent.
I want to examine one topic in detail. That is ... | 4 | [
0.0084228515625,
0.00457763671875,
-0.004180908203125,
0.007232666015625,
-0.0162353515625,
-0.1171875,
0.059814453125,
0.00157928466796875,
-0.004852294921875,
0.09228515625,
0.0205078125,
-0.0233154296875,
0.021240234375,
0.0380859375,
0.0390625,
0.02001953125,
-0.078125,
0.08935... | 13,704,095 | 13704095 | |
Mass of the Earth.
I had a phone-call from a friend the other morning, who was driving her kids to school, aged 8 and 11. They wanted to know, "if you could weigh the Earth, how heavy would it be?" I recalled the mass
to be about 6 x 10^21 tonnes, which when I checked is about right, and so I said, "it's 6 thousand, mi... | 5 | [
-0.000827789306640625,
0.04638671875,
0.041259765625,
0.06982421875,
0.0400390625,
-0.029052734375,
0.07470703125,
0.08984375,
0.029052734375,
0.0439453125,
-0.014404296875,
-0.06689453125,
-0.013671875,
0.00958251953125,
-0.06103515625,
-0.056640625,
0.06005859375,
0.034423828125,... | 13,704,096 | 13704096 | |
nc
Go to the source code of this file.
Functions/Subroutines
subroutine zlatrz (M, N, L, A, LDA, TAU, WORK)
ZLATRZ factors an upper trapezoidal matrix by means of unitary transformations.
Function/Subroutine Documentation
subroutine zlatrz ( integer M,
integ... | 4 | [
-0.1015625,
0.0556640625,
-0.134765625,
0.01531982421875,
-0.0289306640625,
-0.005462646484375,
-0.033447265625,
0.025146484375,
-0.07861328125,
-0.08154296875,
0.05615234375,
0.0135498046875,
-0.00762939453125,
-0.0224609375,
-0.03466796875,
0.04248046875,
-0.05419921875,
0.007629... | 13,704,097 | 13704097 | |
Airbus crypto challenge write-up
Airbus crypto challenge write-up posted December 2014
Airbus made a "private" challenge called « Trust the future » and accessible only by some selected schools (epitech, insa, and others). I wasn't invited to participate but there was a "crypto"
challenge I thought was interesting. Si... | 4 | [
-0.076171875,
0.07470703125,
-0.038818359375,
0.0018157958984375,
0.01007080078125,
-0.03955078125,
0.039306640625,
0.039306640625,
0.024658203125,
0.046142578125,
-0.0072021484375,
-0.0771484375,
0.0693359375,
0.044677734375,
0.01385498046875,
-0.017333984375,
-0.044677734375,
-0.... | 13,704,098 | 13704098 | |
model
Rall model
From Scholarpedia
Wilfrid Rall (2009), Scholarpedia, 4(4):1369. doi:10.4249/scholarpedia.1369 revision #91692 [link to/cite this article]
The designation, Rall model, usually refers to one or more of several closely related biophysical-mathematical models of neurons that have significant dendriti... | 4 | [
-0.04931640625,
-0.1669921875,
0.0546875,
0.041259765625,
-0.051513671875,
-0.02685546875,
-0.0712890625,
0.0693359375,
0.064453125,
0.039306640625,
0.03564453125,
0.080078125,
0.041748046875,
0.0927734375,
-0.103515625,
0.049072265625,
-0.05908203125,
0.0002079010009765625,
-0.0... | 13,704,099 | 13704099 |