content string | quality_label int64 | meta string | all-MiniLM-L6-v2_embedding list | doc_id int64 | unique_id string |
|---|---|---|---|---|---|
35 multiple choice | Numerical analysis homework help
1. A recent survey of local cell phone retailers showed that of all cell phones sold last month, 64% had a camera, 28% had a music player and 22% had both. Which of the following statements
about cell phones sold last month is true?
Having a camera... | 4 | [
0.08642578125,
-0.02197265625,
0.02197265625,
-0.0859375,
-0.01611328125,
0.06005859375,
0.1396484375,
-0.028564453125,
0.037353515625,
0.07373046875,
0.10205078125,
0.0167236328125,
0.0228271484375,
0.004180908203125,
0.08203125,
-0.0260009765625,
0.038818359375,
-0.12890625,
-0... | 13,702,300 | 13702300 | |
Neural Network From Scratch
In this edition of Napkin Math, we’ll invoke the spirit of the Napkin Math series to establish a mental model for how a neural network works by building one from scratch. In a future issue we will do
napkin math on performance, as establishing the first-principle understanding is plenty of ... | 5 | [
-0.08203125,
-0.138671875,
0.0380859375,
-0.033935546875,
-0.00738525390625,
-0.043701171875,
-0.025634765625,
0.0306396484375,
0.08203125,
-0.05615234375,
-0.07470703125,
0.039306640625,
0.0140380859375,
0.05615234375,
-0.0859375,
-0.0242919921875,
0.0201416015625,
0.054931640625,... | 13,702,301 | 13702301 | |
Aquila Optimization Algorithm for Wind Energy Potential Assessment Relying on Weibull Parameters Estimation
^1
Electrical Engineering Department, Faculty of Engineering, Menoufiya University, Shebin El-Kom 32511, Egypt
^2
Electrical Engineering Department, Faculty of Engineering, Kafrelsheikh University, Kafrelshei... | 4 | [
-0.03076171875,
0.0703125,
0.048583984375,
0.09130859375,
-0.040283203125,
-0.0166015625,
-0.046142578125,
-0.005157470703125,
0.0263671875,
-0.03564453125,
-0.055908203125,
-0.076171875,
0.045166015625,
-0.09912109375,
0.049560546875,
0.048095703125,
-0.0128173828125,
-0.094238281... | 13,702,302 | 13702302 | |
Collection of Solved Problems
The van der Waals Equation
Task number: 2175
Nitrogen at an atmospheric pressure of 101 325 Pa and a temperature of 273.15 K undergoes isothermal compression to one tenth of its initial volume. Mass of the nitrogen is 28 g. Determine the work
performed by the gas, considering that its be... | 5 | [
-0.0908203125,
0.1171875,
0.019775390625,
-0.020751953125,
0.0198974609375,
-0.06884765625,
0.025634765625,
0.002227783203125,
-0.007293701171875,
0.07080078125,
-0.05615234375,
-0.052734375,
0.00433349609375,
-0.00151824951171875,
-0.043701171875,
-0.0162353515625,
-0.07666015625,
... | 13,702,303 | 13702303 | |
Calculate guesstimates based on prior knowledge
guesst {DoseFinding} R Documentation
Calculate guesstimates based on prior knowledge
Description
Calculates guesstimates for standardized model parameter(s) using the general approach described in Pinheiro et al. (2006).
Usage
guesst(d, p, model = c("emax", "expone... | 5 | [
0.0380859375,
-0.041259765625,
0.01470947265625,
-0.0625,
0.02880859375,
-0.03564453125,
0.0498046875,
0.19140625,
0.00634765625,
0.09130859375,
0.052001953125,
0.00927734375,
0.033203125,
0.046142578125,
-0.0233154296875,
0.002593994140625,
0.072265625,
0.01361083984375,
-0.0664... | 13,702,304 | 13702304 | |
When does the Delta Method approximation work?
Posted: Updated:
Approximations are useful, squirrelly things. Useful because they offer shortcuts, freeing up compute for other purposes. Squirrelly because the approximation error can vary from case to case, and
that brings an annoying extra question of whether the app... | 4 | [
-0.0703125,
-0.009765625,
0.10498046875,
-0.034912109375,
-0.0128173828125,
-0.04736328125,
-0.0303955078125,
0.08740234375,
0.09423828125,
0.0142822265625,
0.008544921875,
0.0250244140625,
0.017333984375,
0.01239013671875,
0.00185394287109375,
-0.1328125,
0.08349609375,
-0.0024566... | 13,702,305 | 13702305 | |
[tlaplus] Reusing TypeOK theorem in TLAPS
[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]
[tlaplus] Reusing TypeOK theorem in TLAPS
Hello,
I'm trying to reuse the "Spec => []TypeOK" theorem in other theorems
regarding inductive invariants, and have stuck.
Bellow is a small example to repro... | 4 | [
-0.10302734375,
0.076171875,
0.01104736328125,
-0.01416015625,
-0.00035858154296875,
0.0281982421875,
0.04443359375,
-0.00897216796875,
0.0008544921875,
-0.01080322265625,
0.047119140625,
-0.056884765625,
-0.06005859375,
-0.01116943359375,
0.03369140625,
0.0169677734375,
-0.028564453... | 13,702,306 | 13702306 | |
Coreness Variation Rule and Fast Updating Algorithm for Dynamic Networks
^1
Key Laboratory of Transport Industry of Big Data Application Technologies for Comprehensive Transport, Beijing Jiaotong University, Beijing 100044, China
^2
College of Life Science and Technology, Beijing University of Chemical Technology, ... | 4 | [
0.0279541015625,
0.038818359375,
0.043212890625,
-0.004180908203125,
0.048583984375,
-0.052490234375,
-0.0184326171875,
0.04052734375,
-0.043701171875,
0.01446533203125,
-0.0625,
-0.0211181640625,
0.04345703125,
-0.02490234375,
-0.08251953125,
0.0257568359375,
0.0625,
-0.0258789062... | 13,702,307 | 13702307 | |
An offline fault diagnosis method for planetary gearbox based on empirical mode decomposition and adaptive multi-scale morphological gradient filter
Abstract
Planetary gearbox is increasingly used in many kinds of rotary machinery in recent years. Due to the specialty of its structure, fault diagnosis for planetary ge... | 4 | [
0.0206298828125,
0.012451171875,
0.1259765625,
-0.06103515625,
0.052734375,
-0.04345703125,
-0.0284423828125,
0.027587890625,
-0.055419921875,
-0.01446533203125,
-0.01446533203125,
-0.029296875,
0.08349609375,
-0.08056640625,
-0.04345703125,
-0.02197265625,
-0.1005859375,
0.0786132... | 13,702,308 | 13702308 | |
Corresponding Angles: Definition, Types and Examples |Turito
What are Corresponding Angles?
Corresponding angles are the angles formed in corresponding corners with the transversal line. When two parallel lines intersect by any other line, i.e., the transversal, it creates corresponding
angles. For example, angles p a... | 4 | [
-0.10986328125,
-0.05029296875,
-0.03515625,
0.01348876953125,
-0.048095703125,
0.008544921875,
0.0255126953125,
0.0234375,
0.07373046875,
0.00074005126953125,
0.01300048828125,
-0.023193359375,
-0.01251220703125,
0.060791015625,
0.04443359375,
-0.06640625,
-0.1484375,
0.0231933593... | 13,702,309 | 13702309 | |
Formulas
Room Reload Formula[ ]
Formula[ ]
${\displaystyle \text{Boosted Reload} = \frac{\text{Base Reload Time}}{\left( \frac{100 ~ + ~ \text{Sum of Crew Stat in Room}}{100} \right)}}$
${\displaystyle \text{Powered Reload} = \frac{\text{Boosted Reload} \times \text{Max Power of Room}}{\text{Current Power of Room}}}... | 5 | [
-0.01446533203125,
0.047607421875,
-0.01263427734375,
0.06982421875,
-0.00933837890625,
-0.0026702880859375,
-0.055419921875,
0.02685546875,
0.015380859375,
0.058837890625,
-0.031494140625,
-0.03466796875,
0.061279296875,
0.051513671875,
0.010009765625,
0.036865234375,
0.058837890625... | 13,702,310 | 13702310 | |
Problem 656 | Beam Deflection by Conjugate Beam Method
Problem 656
Find the value of EIδ at the point of application of the 200 N·m couple in Fig. P-656.
Solution 656
Click here to expand or collapse this section
From the real beam
$\Sigma M_D = 0$
$4R_1 = 3(500) + 200$
$R_1 = 425 \, \text{ N}$
$\Sigma M_A = 0$... | 5 | [
-0.032958984375,
0.0240478515625,
-0.00421142578125,
-0.01708984375,
-0.056396484375,
-0.01513671875,
-0.002685546875,
0.095703125,
-0.061767578125,
-0.00323486328125,
0.087890625,
-0.06005859375,
0.0087890625,
-0.07275390625,
-0.051513671875,
0.03857421875,
-0.03662109375,
-0.0149... | 13,702,311 | 13702311 | |
The Probability Of An Archor Hitting The Target In A Single Shotis P = 0,2. Determine The Number Of Shots
Here we can use the concept of the binomial distribution. The probability of hitting the target in a single shot is given as p = 0.2. We need to find the minimum number of shots.
In this scenario, we can model the... | 5 | [
0.103515625,
0.07666015625,
-0.01116943359375,
-0.005096435546875,
-0.00165557861328125,
-0.037109375,
0.049072265625,
0.06982421875,
0.052978515625,
0.044677734375,
0.0079345703125,
-0.049560546875,
0.05126953125,
0.01806640625,
0.04833984375,
0.025634765625,
-0.004730224609375,
-... | 13,702,312 | 13702312 | |
SVD of a 2x2 Matrix using eigen values & vectors
Given a 2x2 matrix, write a Python function to compute its Singular Value Decomposition (SVD). The function should return the matrices U, S, and V such that A = U * S * V, use the method described in
this post https://metamerist.blogspot.com/2006/10/linear-algebra-for-gr... | 4 | [
-0.008056640625,
0.0146484375,
-0.09521484375,
-0.07421875,
0.059814453125,
-0.08984375,
-0.060546875,
-0.0732421875,
-0.05615234375,
0.01513671875,
-0.00347900390625,
0.0498046875,
-0.05224609375,
0.003509521484375,
-0.030517578125,
-0.00701904296875,
-0.06982421875,
0.00078201293... | 13,702,313 | 13702313 | |
Riddle 8: Largest Product in A Series
The four adjacent digits in the 1000-digit number that have the greatest product are 9 × 9 × 8 × 9 = 5832.
73167176531330624919225119674426574742355349194934 96983520312774506326239578318016984801869478851843 85861560789112949495459501737958331952853208805511
12540698... | 5 | [
-0.00946044921875,
-0.048583984375,
-0.0791015625,
-0.08984375,
-0.0751953125,
0.01806640625,
0.0023345947265625,
0.0986328125,
-0.01177978515625,
0.021240234375,
-0.061279296875,
0.0498046875,
0.08154296875,
0.05224609375,
-0.1318359375,
0.000030159950256347656,
-0.005584716796875,
... | 13,702,314 | 13702314 | |
Linear Interpolation Formula - Introduction, Problems and FAQs
Linear interpolation is the simplest method which is used for estimating a channel from the vector of the given channel’s estimates. It is very helpful in data prediction, data forecasting, market
research, mathematical and scientific applications. This art... | 5 | [
-0.08349609375,
-0.0162353515625,
-0.00176239013671875,
-0.0281982421875,
-0.0196533203125,
0.0057373046875,
-0.00494384765625,
0.059814453125,
-0.0076904296875,
-0.0191650390625,
-0.05078125,
-0.00201416015625,
0.07861328125,
-0.021240234375,
-0.0213623046875,
0.014404296875,
-0.097... | 13,702,315 | 13702315 | |
Finding the Measure of an Angle given Its Arc’s Measure Using an Inscribed Angle
Question Video: Finding the Measure of an Angle given Its Arc’s Measure Using an Inscribed Angle Mathematics • Third Year of Preparatory School
Given that 𝐵𝐶 is a tangent to the circle, find 𝑚∠𝐴𝐵𝐶.
Video Transcript
Given that 𝐵𝐶... | 4 | [
-0.0732421875,
0.03515625,
0.029052734375,
0.06884765625,
0.009033203125,
-0.00185394287109375,
0.09326171875,
0.03515625,
0.1005859375,
-0.0283203125,
0.043212890625,
-0.08056640625,
0.028564453125,
0.07275390625,
0.01324462890625,
-0.1025390625,
-0.03857421875,
0.029296875,
-0.... | 13,702,316 | 13702316 | |
ASM Fitting | Probabilistic shape model fitting
Analyzing shapes in images using Active Shape Models.
In this article, we show how we can use ideas from the Active Shape Model algorithm, which was originally propose by Cootes and Taylor^1 in a Bayesian setting. The idea is straight-forward. We use
learned profile dist... | 4 | [
-0.0361328125,
-0.052001953125,
0.0166015625,
0.05224609375,
0.07373046875,
-0.002105712890625,
0.0252685546875,
-0.0208740234375,
-0.006011962890625,
-0.045166015625,
0.0810546875,
-0.00537109375,
0.0947265625,
0.032470703125,
0.005859375,
-0.03759765625,
0.0164794921875,
-0.00860... | 13,702,317 | 13702317 | |
Typologies, Indexes and Scales. 15 good questions, nicely answered!
Typologies, Indexes and Scales
15 important questions on Typologies, Indexes and Scales
Which of the measures of central tendency is most informative for the variable polintr?
Median
This is an ordinal variable and the most informative measure of ce... | 4 | [
0.138671875,
0.020263671875,
0.062255859375,
-0.0025787353515625,
0.005401611328125,
0.05224609375,
0.0037384033203125,
0.109375,
-0.032958984375,
0.12255859375,
0.01422119140625,
0.0033721923828125,
-0.0233154296875,
0.0234375,
-0.05517578125,
-0.08251953125,
-0.0537109375,
-0.052... | 13,702,318 | 13702318 | |
T
Battery
Libraries:
Simscape / Electrical / Sources
Simscape / Battery / Cells
Description
The Battery block represents a simple battery model. You can also expose the charge output port and the thermal port of the battery.
To measure the internal charge level of the battery, in the Main section, set the Expose ch... | 4 | [
-0.07373046875,
0.1279296875,
-0.10595703125,
0.038330078125,
0.0125732421875,
-0.0400390625,
0.01177978515625,
0.05615234375,
0.0546875,
0.0751953125,
0.03955078125,
-0.0869140625,
0.07958984375,
0.0301513671875,
0.0732421875,
-0.04638671875,
0.0869140625,
0.00701904296875,
0.08... | 13,702,319 | 13702319 | |
1st PUC Physics Model Question Paper 2 with Answers
Students can Download 1st PUC Physics Model Question Paper 2 with Answers, Karnataka 1st PUC Physics Model Question Papers with Answers helps you to revise the complete Karnataka State Board Syllabus
and to clear all their doubts, score well in final exams.
Karnata... | 5 | [
0.0150146484375,
0.0732421875,
0.00909423828125,
0.01312255859375,
-0.0284423828125,
0.0281982421875,
-0.021484375,
0.06982421875,
-0.052490234375,
0.00151824951171875,
0.059814453125,
-0.09912109375,
0.038330078125,
-0.0016937255859375,
-0.043212890625,
-0.03857421875,
-0.0415039062... | 13,702,320 | 13702320 | |
WOLFRAM
Re: Re: Re: fastest way to add up a billion numbers
• To: mathgroup at smc.vnet.net
• Subject: [mg74511] Re: [mg74458] Re: [mg74445] Re: fastest way to add up a billion numbers
• From: Andrzej Kozlowski <akoz at mimuw.edu.pl>
• Date: Fri, 23 Mar 2007 19:14:19 -0500 (EST)
• References: <es92b2$3oj$1@s... | 5 | [
-0.044921875,
-0.036376953125,
-0.024169921875,
0.0302734375,
-0.052734375,
-0.0303955078125,
0.002349853515625,
0.018310546875,
-0.02001953125,
0.07470703125,
-0.0277099609375,
-0.053955078125,
0.0419921875,
0.0067138671875,
-0.017822265625,
-0.0634765625,
0.04931640625,
0.0211181... | 13,702,321 | 13702321 | |
Ubiquitous-Anisotropic Model
FLAC3D Theory and Background • Constitutive Models
Ubiquitous-Anisotropic Model
This model combines the logic of the anisotropic elastic model and Mohr-Coulomb model with that of the ubiquitous-joint model (note that “weak plane” and “joint” are used interchangeably in the
text). The new ... | 4 | [
-0.09130859375,
-0.051025390625,
0.05810546875,
0.01220703125,
0.0289306640625,
-0.03515625,
-0.0751953125,
0.03955078125,
-0.0152587890625,
0.0014190673828125,
-0.0218505859375,
-0.04248046875,
-0.052734375,
0.06787109375,
-0.01513671875,
-0.07666015625,
-0.06201171875,
0.01446533... | 13,702,322 | 13702322 | |
tion
RSA - Public Key Cryptosystem¶
RSA is an Public Key Cryptosystem which is used to transmit messages over the internet, it is based on the principle of factoring large prime numbers. RSA is named after its inventors, Ronald L.
Rivest, Adi Shamir, and Leonard M. Adleman, who created it at the Massachusetts Insti... | 5 | [
-0.06787109375,
-0.000701904296875,
-0.1376953125,
0.0277099609375,
-0.00001895427703857422,
-0.006317138671875,
0.0162353515625,
0.053466796875,
0.1181640625,
0.0257568359375,
0.023193359375,
0.1240234375,
0.017578125,
0.012451171875,
0.08935546875,
-0.04736328125,
-0.054931640625,
... | 13,702,323 | 13702323 | |
Multiplying And Dividing Complex Numbers In Polar Form Worksheet
Multiplying And Dividing Complex Numbers In Polar Form Worksheet function as foundational tools in the realm of maths, giving a structured yet flexible platform for students to discover and
understand numerical concepts. These worksheets supply an organiz... | 4 | [
-0.0810546875,
0.049560546875,
-0.06689453125,
0.01214599609375,
-0.07275390625,
-0.09326171875,
-0.033447265625,
0.039306640625,
0.058349609375,
0.00787353515625,
0.09716796875,
-0.0289306640625,
0.0390625,
0.146484375,
0.0419921875,
-0.00091552734375,
-0.11865234375,
0.0439453125... | 13,702,324 | 13702324 | |
2.2.2 Rate of Change
Name_________________________________ date_____ period ___
Today you will focus on the meaning of “rate of change” in various situations. What
does a rate of change represent? How can you use it? As you graph the results of a
competitive tricycle race today, think about how the participants’ rates... | 4 | [
0.026611328125,
0.038818359375,
0.0263671875,
-0.041748046875,
-0.0079345703125,
0.04833984375,
-0.08642578125,
0.039306640625,
0.036376953125,
0.04541015625,
0.0947265625,
-0.1015625,
-0.00274658203125,
0.05029296875,
0.004638671875,
0.0478515625,
-0.0036163330078125,
0.0049133300... | 13,702,325 | 13702325 | |
Hi Please tell me how to calculate geometric mean in sas.Is it possible with proc mean.
1 ACCEPTED SOLUTION
Accepted Solutions
From @Ksharp:
SAS has already offered such a function.
x1=geomean(1,2,2,4);
More info... Assuming you want the geometric mean because your data has a lognormal distribution, you... | 5 | [
0.0458984375,
-0.072265625,
-0.042236328125,
-0.10498046875,
-0.08935546875,
-0.07763671875,
0.0322265625,
0.0869140625,
0.0242919921875,
0.1201171875,
-0.0081787109375,
-0.03466796875,
0.08544921875,
0.047119140625,
0.017578125,
0.0079345703125,
-0.059814453125,
0.02197265625,
-... | 13,702,326 | 13702326 | |
o
What do you see when you look at a regression analysis? Because me, all I see is a bunch of numbers and I have no idea where to look first or what’s important. Could you start me off with
regression in some baby steps? What is it that you are looking at when you stare at this stuff?
Never one to shy away fr... | 4 | [
0.044921875,
0.0419921875,
-0.0034027099609375,
0.09521484375,
0.041259765625,
0.10302734375,
-0.0478515625,
0.0289306640625,
0.003875732421875,
0.0703125,
0.05859375,
0.0478515625,
0.0211181640625,
0.0615234375,
-0.04443359375,
0.0299072265625,
-0.007568359375,
-0.04296875,
-0.0... | 13,702,327 | 13702327 | |
Solving bent waveguides in FDE and FEEM
MODE
This page discusses the physics of bent waveguides and provides details on the more complicated aspects of using the bent waveguide solver. With the exception of the Bend orientation setting section,
which only applies to the FDE solver, the content on this page applies to ... | 4 | [
-0.06884765625,
0.01422119140625,
0.06884765625,
0.033935546875,
0.0213623046875,
-0.017333984375,
-0.022705078125,
0.07861328125,
-0.09228515625,
-0.013671875,
0.0157470703125,
0.03955078125,
-0.021728515625,
-0.0264892578125,
0.0274658203125,
-0.029296875,
-0.0927734375,
-0.02014... | 13,702,328 | 13702328 | |
2003 AMC 12A Problems/Problem 17
Problem
Square $ABCD$ has sides of length $4$, and $M$ is the midpoint of $\overline{CD}$. A circle with radius $2$ and center $M$ intersects a circle with radius $4$ and center $A$ at points $P$ and $D$.
What is the distance from $P$ to $\overline{AD}$?
$[asy] pair A,B,C,D,M,P; D=(0... | 4 | [
0.0191650390625,
0.095703125,
-0.050048828125,
-0.09521484375,
-0.0517578125,
0.032470703125,
-0.0244140625,
0.1142578125,
-0.054931640625,
0.0228271484375,
0.0284423828125,
-0.0181884765625,
-0.019287109375,
0.031494140625,
-0.0498046875,
0.0673828125,
-0.02734375,
0.015380859375,... | 13,702,329 | 13702329 | |
PROC TTEST For Comparing Means | 9TO5SAS
The student’s TTest is the most used statistical test for comparing two means or an observed mean with a known value. When comparing the means of more than two groups, an analysis of variance (ANOVA)
is performed.
Syntax
PROC TTEST < options > ;<br>CLASS variable ;<br>PAIRED v... | 5 | [
-0.039794921875,
-0.026611328125,
-0.06787109375,
-0.017822265625,
-0.0400390625,
-0.00628662109375,
0.00080108642578125,
0.203125,
0.019287109375,
0.05029296875,
0.042236328125,
-0.0038299560546875,
-0.00299072265625,
-0.017578125,
-0.025146484375,
-0.076171875,
0.0966796875,
-0.0... | 13,702,330 | 13702330 | |
nt
Tamilnadu State Board New Syllabus Samacheer Kalvi 12th Maths Guide Pdf Chapter 5 Two Dimensional Analytical Geometry – II Ex 5.1 Textbook Questions and Answers, Notes.
Tamilnadu Samacheer Kalvi 12th Maths Solutions Chapter 5 Two Dimensional Analytical Geometry – II Ex 5.1
Question 1.
Obtain the equation of the ci... | 4 | [
-0.056396484375,
0.012451171875,
-0.039306640625,
-0.0029754638671875,
0.055908203125,
-0.037353515625,
0.038330078125,
0.052001953125,
0.0361328125,
-0.02392578125,
0.072265625,
-0.05126953125,
0.0032958984375,
0.003875732421875,
-0.005096435546875,
0.04931640625,
-0.146484375,
-0... | 13,702,331 | 13702331 | |
On the Effects of Different Interpretations of Stochastic Differential Equations
On the Effects of Different Interpretations of Stochastic Differential Equations ()
1. Introduction
From the beginning of the last century evidence became clear that a deterministic vision of the physical phenomena it is insufficient to ... | 4 | [
-0.042236328125,
-0.05224609375,
0.04931640625,
0.10546875,
0.0498046875,
-0.0213623046875,
-0.017822265625,
0.029052734375,
0.07666015625,
0.019775390625,
-0.00469970703125,
0.007232666015625,
0.0245361328125,
-0.056396484375,
-0.08154296875,
-0.06494140625,
0.018310546875,
0.0617... | 13,702,332 | 13702332 | |
UPSSSC-JE’21 CE: Daily Practice Quiz. 09-October-2021
Know your strengths and practice your concepts with this quiz on UPSSSC-JE Recruitment 2021. This quiz for UPSSSC-JE Recruitment 2021 is designed specially according to UPSSSC-JE Syllabus 2021.
Quiz: Civil Engineering
Exam: UPSSSC-JE
Topic: MISCELLANEOUS
Each qu... | 4 | [
-0.0888671875,
0.0302734375,
0.01373291015625,
-0.042236328125,
-0.035888671875,
-0.04345703125,
0.034423828125,
0.06298828125,
0.01611328125,
0.036376953125,
0.0277099609375,
-0.03564453125,
0.09619140625,
0.006744384765625,
-0.0198974609375,
-0.01708984375,
-0.002197265625,
0.014... | 13,702,333 | 13702333 | |
Comment on Unleashing the Power of Bayesian Re-Analysis
27 February 2024
I want to comment on the paper by Costa and colleagues on a Bayesian re-analysis of the Lecanemab phase 3 Clarity trial [1]. Costa and colleagues had already very meritoriously presented a Bayesian
meta-analysis of the Aducanumab Phase 3 trials [... | 5 | [
-0.024169921875,
0.0145263671875,
0.052734375,
0.012939453125,
0.002288818359375,
0.01153564453125,
0.002777099609375,
0.1591796875,
0.0020751953125,
0.053955078125,
0.0093994140625,
0.0888671875,
0.06298828125,
-0.0751953125,
-0.0267333984375,
0.053955078125,
0.02490234375,
0.0329... | 13,702,334 | 13702334 | |
Modified Cuckoo Search Algorithm with Variational Parameters and Logistic Map
School of Software, Central South University, Changsha 410075, China
^*
Author to whom correspondence should be addressed.
Submission received: 17 January 2018 / Revised: 6 March 2018 / Accepted: 14 March 2018 / Published: 15 March 2018
... | 4 | [
0.06787109375,
0.08740234375,
0.036376953125,
-0.08642578125,
0.076171875,
-0.0023040771484375,
-0.05126953125,
-0.072265625,
-0.0098876953125,
0.059814453125,
-0.0028076171875,
-0.0498046875,
0.04150390625,
0.0098876953125,
0.0033111572265625,
-0.0201416015625,
-0.064453125,
-0.02... | 13,702,335 | 13702335 | |
1957 AHSME Problems/Problem 2
Problem
In the equation $2x^2 - hx + 2k = 0$, the sum of the roots is $4$ and the product of the roots is $-3$. Then $h$ and $k$ have the values, respectively:
$\textbf{(A)}\ 8\text{ and }{-6} \qquad \textbf{(B)}\ 4\text{ and }{-3}\qquad \textbf{(C)}\ {-3}\text{ and }4\qquad \textbf{(D)... | 4 | [
-0.06591796875,
0.07958984375,
-0.0361328125,
-0.021240234375,
0.023681640625,
0.09375,
-0.025634765625,
0.087890625,
0.03125,
0.04248046875,
0.087890625,
-0.0830078125,
0.05615234375,
-0.027099609375,
-0.031494140625,
0.04541015625,
-0.0498046875,
0.01080322265625,
-0.0522460937... | 13,702,336 | 13702336 | |
What is the slope of any line perpendicular to the line defined by the equation y = -4x + 1? | Socratic
What is the slope of any line perpendicular to the line defined by the equation #y = -4x + 1#?
2 Answers
See a solution process below:
Explanation:
The equation in the problem is in slope-intercept form. The slop... | 4 | [
-0.0247802734375,
0.035888671875,
0.0238037109375,
-0.08837890625,
0.0025177001953125,
0.056884765625,
0.049072265625,
0.031494140625,
-0.007354736328125,
0.0181884765625,
0.04833984375,
-0.0052490234375,
0.10888671875,
0.052001953125,
-0.0537109375,
0.1474609375,
-0.0198974609375,
... | 13,702,337 | 13702337 | |
Moving Averages & Data Cleaning
Original Code
* Imagine you have data on prices for many products.
* For each of the products you record weekly price information.
clear
set obs 200
gen prod_id = _n
* Each product has a unique average price
gen prod_price = rpoisson(5)/7
* You have data on weekly prices for 200 ... | 4 | [
-0.1044921875,
-0.03173828125,
0.03515625,
0.05908203125,
0.061767578125,
0.019287109375,
-0.01007080078125,
0.0322265625,
-0.048583984375,
0.01263427734375,
0.005035400390625,
-0.01129150390625,
0.016845703125,
-0.0255126953125,
-0.00170135498046875,
-0.0189208984375,
-0.111328125,
... | 13,702,338 | 13702338 | |
NTC thermistor parameters are: resistance value, B value, dissipation coefficient, thermal time constant, resistance temperature coefficient.
□ NTC thermistor resistance value: R [Ω]
The approximate value of resistance is: R2=R1exp[1/T2-1/T1]
R2: Resistance [Ω] at absolute temperature T2 [K]
... | 4 | [
-0.1259765625,
0.04150390625,
-0.0233154296875,
0.0595703125,
-0.0029144287109375,
-0.00836181640625,
-0.0016326904296875,
0.054931640625,
0.0272216796875,
0.0235595703125,
-0.08544921875,
-0.12060546875,
0.03515625,
-0.00433349609375,
0.00191497802734375,
0.0255126953125,
0.12255859... | 13,702,339 | 13702339 | |
Area of a kite calculator
Area of a Kite Calculator
Select the term you want to calculate, enter values, and click calculate button to find area and perimeter of kite using area of kite calculator
Area of a Kite Calculator
Area of a Kite Calculator is an online tool that helps to quickly find the kite's area and per... | 4 | [
0.06884765625,
0.055419921875,
-0.0791015625,
-0.034423828125,
-0.041748046875,
-0.0390625,
-0.0203857421875,
0.0225830078125,
0.015625,
-0.01312255859375,
0.07421875,
-0.0341796875,
-0.021240234375,
-0.0016021728515625,
0.043212890625,
0.07421875,
-0.06494140625,
-0.029052734375,
... | 13,702,340 | 13702340 | |
Wolfram Physics Project
In any causal invariant rule, all branch pairs that are generated must eventually resolve. But by looking at how many branch pairs are resolved—and unresolved—at each step, we can get a sense of “how
far” a rule is from causal invariance.
Consider the causal invariant rule:
{"A" -> "AB", "B" -... | 4 | [
-0.049560546875,
-0.0732421875,
0.022216796875,
0.0076904296875,
0.003936767578125,
-0.0205078125,
-0.0947265625,
-0.0247802734375,
0.041015625,
0.00152587890625,
-0.0218505859375,
0.01513671875,
0.042724609375,
0.0228271484375,
0.0038299560546875,
0.0849609375,
-0.1044921875,
-0.0... | 13,702,341 | 13702341 | |
16.5 Interference of Waves - University Physics Volume 1 | OpenStax
By the end of this section, you will be able to:
• Explain how mechanical waves are reflected and transmitted at the boundaries of a medium
• Define the terms interference and superposition
• Find the resultant wave of two identical sinusoidal w... | 4 | [
-0.0113525390625,
-0.056396484375,
0.064453125,
-0.002349853515625,
-0.0162353515625,
-0.05712890625,
-0.0218505859375,
-0.00653076171875,
-0.017822265625,
-0.021728515625,
0.01483154296875,
-0.00958251953125,
0.01361083984375,
-0.01416015625,
0.038818359375,
0.0027618408203125,
0.02... | 13,702,342 | 13702342 | |
Measured Variability Of Southern Yellow Pine - Manual for LS-DYNA Wood Material Model 143
PDF Version
... | 4 | [
-0.10546875,
-0.1064453125,
0.02001953125,
-0.0380859375,
0.000023126602172851562,
-0.056640625,
-0.018798828125,
-0.0003662109375,
0.037353515625,
0.06982421875,
-0.044921875,
0.05322265625,
-0.0074462890625,
0.049072265625,
-0.025390625,
0.04150390625,
-0.040283203125,
0.00134277... | 13,702,343 | 13702343 | |
Table Lookups basics | Concrete
This document introduces the concept of Table Lookups (TLUs) in Concrete, covers the basic TLU usage, performance considerations, and some basic techniques for optimizing TLUs in encrypted
computations. For more advanced TLU usage, refer to the Table Lookup advanced section
In TFHE, the... | 5 | [
-0.017333984375,
0.080078125,
-0.0673828125,
-0.04150390625,
-0.043212890625,
-0.12353515625,
-0.04443359375,
0.0400390625,
-0.019775390625,
-0.0184326171875,
-0.000110626220703125,
0.0181884765625,
-0.0177001953125,
-0.055908203125,
-0.032470703125,
0.002960205078125,
-0.04272460937... | 13,702,344 | 13702344 | |
The Binomial Distribution
Binomial {stats} R Documentation
The Binomial Distribution
Description
Density, distribution function, quantile function and random generation for the binomial distribution with parameters size and prob.
This is conventionally interpreted as the number of ‘successes’ in size trials.
Usag... | 5 | [
0.056884765625,
-0.0087890625,
-0.03515625,
0.0184326171875,
-0.03466796875,
-0.025146484375,
0.091796875,
0.09130859375,
0.017822265625,
0.07958984375,
0.01116943359375,
-0.025390625,
0.060791015625,
-0.03125,
0.033203125,
0.057373046875,
0.00775146484375,
-0.044189453125,
-0.02... | 13,702,345 | 13702345 | |
Perform Durbin-Watson (DW) test in Python
Durbin-Watson (DW) test
In regression analysis, Durbin-Watson (DW) is useful for checking the first-order autocorrelation (serial correlation). It analyzes the residuals for independence over time points (autocorrelation).
The autocorrelation varies from -1 (negative autocorr... | 5 | [
-0.037109375,
-0.029052734375,
0.08447265625,
0.03857421875,
0.02734375,
-0.0224609375,
-0.10400390625,
-0.0245361328125,
0.02197265625,
0.01239013671875,
0.0264892578125,
-0.059326171875,
-0.043212890625,
0.0361328125,
0.004364013671875,
-0.034423828125,
-0.01904296875,
-0.1806640... | 13,702,346 | 13702346 | |
Ideal Transformer Calculator
To simply determine the transformer's primary or secondary voltage, use the online and free Ideal Transformer Calculator. To acquire the unknown voltage as a result, simply enter the primary winding,
secondary winding, and known voltage details into the calculator and press the calculate ... | 4 | [
-0.06591796875,
0.07958984375,
-0.076171875,
-0.01556396484375,
0.0419921875,
-0.013427734375,
-0.061279296875,
0.07861328125,
0.09814453125,
-0.0036163330078125,
-0.04296875,
-0.0181884765625,
0.10107421875,
0.0133056640625,
-0.032958984375,
-0.00113677978515625,
-0.0927734375,
0.... | 13,702,347 | 13702347 | |
Investigation on the effect of arithmetic sequence & geometric sequence acting simultaneously on a particular event | Mathematics AA SL's Sample Internal Assessment | Nail IB®
The above discussion (refer to section 4.2), comprise analysis and equation of the trend specific to the particular event, i.e., according to t... | 5 | [
-0.09375,
0.057373046875,
0.033447265625,
-0.021484375,
0.0225830078125,
-0.00151824951171875,
-0.09814453125,
0.01904296875,
0.0634765625,
0.0498046875,
0.042724609375,
0.01507568359375,
0.027587890625,
0.00156402587890625,
-0.00323486328125,
-0.000949859619140625,
-0.1787109375,
... | 13,702,348 | 13702348 | |
The TTest Function
The proc_ttest() function simulates some of the functionality of SAS® PROC TTEST. It can compute T-Tests and confidence limits for one sample, paired samples, and two independent samples. The
function is both interactive and returns a list of data frames that can be used for further analysis or repo... | 5 | [
-0.051513671875,
-0.01251220703125,
-0.09130859375,
0.012451171875,
0.0024566650390625,
0.03271484375,
0.032958984375,
0.1376953125,
-0.01544189453125,
0.0498046875,
0.056884765625,
-0.030517578125,
0.041748046875,
-0.10009765625,
0.0023345947265625,
-0.10498046875,
0.0380859375,
0... | 13,702,349 | 13702349 | |
Introduction To Differential Calculus Pdf the power line in your data, so it would be highly advisable that you will use data in other datasets. Please note that just because you started with a
variety of data, does not give the same coverage as if you covered all the data. One of the very first methods for “cross-dat... | 4 | [
-0.04248046875,
-0.032470703125,
-0.0458984375,
-0.00133514404296875,
-0.08984375,
-0.031005859375,
-0.0208740234375,
0.061279296875,
-0.11376953125,
-0.007415771484375,
-0.0086669921875,
-0.0732421875,
0.10302734375,
-0.05126953125,
-0.0034942626953125,
0.0517578125,
0.032470703125,... | 13,702,350 | 13702350 | |
Rotational Kinetic Energy Calculator | Online Calculators
Rotational Kinetic Energy Calculator
Rotational Kinetic Energy Calculator helps you determine the energy stored in a rotating object. By inputting values like the Moment of Inertia and Angular Velocity in the basic mode, or Mass, Radius
of Gyration, and Angular... | 4 | [
0.026123046875,
0.034423828125,
-0.09814453125,
-0.034912109375,
-0.0260009765625,
-0.087890625,
-0.032958984375,
0.068359375,
0.0791015625,
0.011474609375,
0.037353515625,
0.01806640625,
0.01171875,
-0.064453125,
0.003692626953125,
0.0301513671875,
-0.05224609375,
0.1669921875,
... | 13,702,351 | 13702351 | |
Learning Tarjan's algorithm | Software Engineering Handbook
Learning Tarjan's algorithm
Learning Tarjan's algorithm for finding the strongly connected components (SCCs) of a directed graph can be rather difficult at first. Many learning materials sketch out the concepts and may even
provide pseudocode, but few materia... | 4 | [
-0.047607421875,
0.0341796875,
-0.051025390625,
0.0028076171875,
0.0390625,
-0.09716796875,
-0.0240478515625,
-0.032470703125,
-0.06640625,
-0.0255126953125,
-0.037353515625,
0.0810546875,
0.046630859375,
0.006561279296875,
-0.033935546875,
0.043701171875,
-0.0206298828125,
0.03808... | 13,702,352 | 13702352 | |
RGPV Engineering Physics - December 2012 Exam Question Paper | Stupidsid
Total marks: --
Total time: --
INSTRUCTIONS
(1) Assume appropriate data and state your reasons
(2) Marks are given to the right of every question
(3) Draw neat diagrams wherever necessary
Answer the any one question from Q1 & Q2
1 (a) Explain t... | 4 | [
-0.0245361328125,
0.09619140625,
0.0308837890625,
0.031982421875,
-0.000637054443359375,
0.05712890625,
0.04248046875,
0.05810546875,
-0.06640625,
-0.01171875,
0.0751953125,
-0.056640625,
0.007232666015625,
-0.04638671875,
0.0034637451171875,
0.046630859375,
-0.008544921875,
-0.064... | 13,702,353 | 13702353 | |
How do you factor x^3 - 1? | Socratic
How do you factor # x^3 - 1#?
2 Answers
Expanding upon prior answer:
Explanation:
I want to expand upon an idea expressed in the prior answer
The idea of:
$\frac{{x}^{n} - 1}{x - 1} = {\sum}_{r = 1}^{n} {x}^{n - r}$
or not in sigma notation:
$\frac{{x}^{n} - 1}{x - 1} = {x... | 5 | [
-0.039794921875,
0.01458740234375,
-0.016845703125,
0.027099609375,
0.04443359375,
0.0079345703125,
0.01611328125,
-0.01202392578125,
0.000476837158203125,
-0.03759765625,
-0.04736328125,
0.01239013671875,
0.10400390625,
-0.042724609375,
-0.061279296875,
-0.006866455078125,
0.0077514... | 13,702,354 | 13702354 | |
Entropy and the Second Law of Thermodynamics: Disorder and the Unavailability of Energy
Lumen Learning
Learning Objectives
By the end of this section, you will be able to:
• Define entropy.
• Calculate the increase of entropy in a system with reversible and irreversible processes.
• Explain the expected fate ... | 5 | [
-0.053466796875,
-0.041015625,
0.00994873046875,
0.1259765625,
0.06982421875,
0.0040283203125,
0.0291748046875,
-0.01806640625,
0.08837890625,
0.08837890625,
-0.018798828125,
-0.021240234375,
0.0206298828125,
0.0267333984375,
0.0302734375,
-0.087890625,
-0.034912109375,
0.023071289... | 13,702,355 | 13702355 | |
Linear Probing Technique Explanation with Example - Quescol
Linear Probing Technique Explanation with Example
Linear probing is a simple way to deal with collisions in a hash table. A collision happens when two items should go in the same spot. Imagine a parking lot where each car has a specific spot. If a
car finds i... | 4 | [
0.01287841796875,
0.0274658203125,
-0.013671875,
-0.021728515625,
-0.020751953125,
0.0205078125,
0.07421875,
-0.01519775390625,
0.07568359375,
0.0157470703125,
0.015869140625,
0.08984375,
0.0576171875,
-0.04150390625,
-0.0869140625,
0.04931640625,
-0.0263671875,
0.00665283203125,
... | 13,702,356 | 13702356 | |
WHAT TO DO: HOW TO DO IT:
a) difference of squares
If there is no common factor check f... | 4 | [
0.0498046875,
0.0478515625,
-0.0196533203125,
0.00141143798828125,
0.019287109375,
0.087890625,
-0.041748046875,
-0.031005859375,
-0.056640625,
-0.02490234375,
0.0213623046875,
0.002532958984375,
-0.01068115234375,
0.04345703125,
-0.01519775390625,
-0.037353515625,
0.019775390625,
... | 13,702,357 | 13702357 | |
Modular Arithmetic
In this article we’ll go through what modular arithmetic is and how it is useful in programming. We’ll also go through various conventions in Modular Arithmetic and equivalence relations which
simplify computing modulo.
What is Modular Arithmetic?
Modular arithmetic is a system in mathematics which... | 4 | [
-0.06982421875,
0.0361328125,
-0.0185546875,
-0.050048828125,
0.042236328125,
-0.0849609375,
0.038818359375,
0.0673828125,
0.0262451171875,
0.0036468505859375,
0.04931640625,
0.031982421875,
0.0230712890625,
-0.04150390625,
0.0225830078125,
-0.052734375,
-0.0030517578125,
0.0593261... | 13,702,358 | 13702358 | |
The present population of the town is 25,000.It grows at 4% ,5% and 8% in the first year ,second year and third year respectively,the population after three years is
Hint: Here it is enough if we find the percentage value at the end of each year and add it with the population of the previous year.
Complete step-by-st... | 4 | [
0.00933837890625,
0.017578125,
0.027099609375,
-0.04052734375,
-0.06591796875,
-0.0174560546875,
-0.0120849609375,
0.0169677734375,
-0.09912109375,
0.04736328125,
0.087890625,
-0.09912109375,
0.04052734375,
0.019287109375,
0.04541015625,
0.07275390625,
-0.041015625,
0.040771484375,... | 13,702,359 | 13702359 | |
(Bond valuation) A bond that matures in
10years has a $1,000
par value. The annual coupon...
(Bond valuation) A bond that matures in 10years has a $1,000 par value. The annual coupon...
(Bond valuation) A bond that matures in
10years has a $1,000
par value. The annual coupon interest rate is 9
percent and the? mark... | 5 | [
-0.048583984375,
0.04931640625,
-0.07666015625,
-0.07275390625,
-0.01177978515625,
-0.03759765625,
-0.0079345703125,
0.1123046875,
-0.02685546875,
0.02392578125,
0.064453125,
-0.0966796875,
-0.0166015625,
0.10791015625,
0.0081787109375,
0.029541015625,
-0.0286865234375,
-0.046875,
... | 13,702,360 | 13702360 | |
‘Big O’ Notation
May 072018
By making a series of assumptions and considering only “large” inputs, we can analyse how efficient an algorithm is without actually running it. The result of this analysis is a mathematical formula
called the complexity (or time complexity) of the algorithm. For example, we derived the fo... | 4 | [
0.039306640625,
0.030029296875,
0.00640869140625,
0.05810546875,
0.0517578125,
-0.049560546875,
-0.08837890625,
0.017578125,
0.11181640625,
-0.016845703125,
-0.1005859375,
0.1416015625,
-0.0184326171875,
-0.0361328125,
-0.0986328125,
0.03955078125,
0.044677734375,
-0.031005859375,
... | 13,702,361 | 13702361 | |
Maharashtra Board 9th Class Maths Part 1 Practice Set 2.1 Solutions Chapter 2 Real Numbers
Balbharti Maharashtra State Board Class 9 Maths Solutions covers the Practice Set 2.1 Algebra 9th Class Maths Part 1 Answers Solutions Chapter 2 Real Numbers.
Practice Set 2.1 Algebra 9th Std Maths Part 1 Answers Chapter 2 Rea... | 4 | [
-0.050537109375,
-0.01055908203125,
0.001983642578125,
-0.061767578125,
-0.0069580078125,
0.0272216796875,
0.04931640625,
0.037841796875,
-0.0654296875,
-0.041748046875,
0.00244140625,
-0.07666015625,
-0.003997802734375,
0.06201171875,
-0.0439453125,
-0.0556640625,
-0.011474609375,
... | 13,702,362 | 13702362 | |
Basic ‘cpp11armadillo’ usage
Ordinary Least Squares Examples
The Ordinary Least Squares (OLS) estimator is \(\hat{\beta} = (X^tX)^{-1}(X^tY)\) for a design matrix \(X\) and an outcome vector \(Y\) (Hansen 2022).
The following code shows how to compute the OLS estimator using Armadillo and sending data from R to C++ ... | 4 | [
-0.099609375,
0.0888671875,
-0.099609375,
-0.053466796875,
0.00885009765625,
-0.0230712890625,
-0.06689453125,
0.05029296875,
0.018310546875,
-0.02001953125,
0.038818359375,
0.046875,
0.01153564453125,
-0.0654296875,
-0.0262451171875,
-0.00494384765625,
0.0228271484375,
-0.00210571... | 13,702,363 | 13702363 | |
Geometric mean - Science without sense...double nonsense
Counting bugs
Geometric mean
The geometric mean is used when the values of the data distribution change multiplicatively, and not additively. This makes it ideal for averaging geometric progression data, such as ratios, compound
interest in economics, or bacter... | 4 | [
-0.00091552734375,
-0.055908203125,
0.0167236328125,
-0.05126953125,
-0.07568359375,
-0.03515625,
-0.080078125,
0.12060546875,
0.0908203125,
0.06298828125,
-0.00738525390625,
-0.0029449462890625,
0.0966796875,
0.08740234375,
-0.0322265625,
-0.054443359375,
-0.02587890625,
-0.009460... | 13,702,364 | 13702364 | |
Answer by dan_fulea for <p>I'm having two difficulties which I assume are simple to resolve. I have a set field, say $K= \mathbb{Q}(x^2+1)$, and a set of polynomials I want to check if they are irreducible over $K$. If they are irreducible, I would like to form the compositum of $K$ and this field generated by $f$ and ... | 5 | [
0.04833984375,
0.055419921875,
-0.0245361328125,
0.00634765625,
0.10791015625,
0.033203125,
0.072265625,
0.010986328125,
-0.0093994140625,
-0.08349609375,
-0.042724609375,
-0.0277099609375,
0.02197265625,
-0.052978515625,
-0.076171875,
-0.028564453125,
-0.0011138916015625,
0.039794... | 13,702,365 | 13702365 | |
Classification of Efficient Total Domination Sets of Circulant Graphs of Degree 5
^1
Department of Mathematics, Yeungnam University, Kyongsan 712-749, Korea
^2
Department of Mathematics, Changwon National University, Changwon 641-773, Korea
^*
Author to whom correspondence should be addressed.
Submission receive... | 4 | [
0.0277099609375,
0.032958984375,
0.0595703125,
-0.046875,
0.0216064453125,
0.00176239013671875,
-0.01806640625,
-0.07861328125,
-0.0233154296875,
0.08251953125,
-0.000514984130859375,
-0.01287841796875,
0.0888671875,
-0.0267333984375,
0.038818359375,
-0.00457763671875,
0.054931640625... | 13,702,366 | 13702366 | |
Seepage losses from trapezoidal earth canals with an impervious layer under the bed
Abstract
Seepage of irrigation water from earth canals is one of the most significant causes of water loss. It should be carefully studied and controlled. This research aims to study the effect of the
presence of an impervious layer un... | 4 | [
-0.01397705078125,
0.02685546875,
0.1025390625,
-0.042724609375,
0.0233154296875,
-0.07470703125,
-0.057861328125,
0.130859375,
-0.0169677734375,
-0.0021209716796875,
-0.037353515625,
0.00921630859375,
0.05615234375,
0.01129150390625,
-0.047119140625,
0.003692626953125,
-0.0529785156... | 13,702,367 | 13702367 | |
Understand the Concept of Integration Formulas & How to Evaluate Integrals?
In this article, you will learn what integration is and how to calculate integrals. You will also learn what are the basic rules/formula of integration.
What is Integration?
In mathematics, integration refers to the opposite of derivative. ... | 5 | [
0.03466796875,
-0.03466796875,
0.0615234375,
0.004425048828125,
0.00004124641418457031,
-0.052978515625,
-0.037841796875,
0.07470703125,
0.049560546875,
0.064453125,
0.04345703125,
0.02685546875,
0.047119140625,
0.03466796875,
-0.001220703125,
-0.0262451171875,
-0.04443359375,
0.03... | 13,702,368 | 13702368 | |
III Quantum Computation - Some quantum algorithms
3Some quantum algorithms
III Quantum Computation
3.4 Search problems and Grover’s algorithm
We are now going to turn our attention to search problems. These are very
important problems in computing, as we can formulate almost all problems as
some sort of search pro... | 4 | [
-0.056884765625,
0.03759765625,
-0.04345703125,
-0.02783203125,
-0.0908203125,
0.0029449462890625,
-0.036865234375,
-0.1025390625,
-0.041259765625,
-0.035888671875,
-0.05322265625,
-0.0155029296875,
0.007598876953125,
0.0341796875,
0.0216064453125,
0.00823974609375,
0.007415771484375... | 13,702,369 | 13702369 | |
plasticparcels.kernels
Settling velocity due to biofouling kernel.
Description
Kernel to compute the settling velocity of particles due to changes in ambient algal concentrations, growth and death of attached algae based on [2]. The settling velocity of the particle is computed
as per [1], however the particle size a... | 4 | [
-0.044189453125,
-0.04052734375,
0.055908203125,
-0.01153564453125,
0.02685546875,
-0.0537109375,
0.036376953125,
0.047119140625,
0.037353515625,
0.004364013671875,
0.07373046875,
-0.10595703125,
0.01239013671875,
0.046630859375,
-0.038818359375,
0.01953125,
-0.020751953125,
0.0947... | 13,702,370 | 13702370 | |
Work Done Quiz with answers - PhysicsGoEasy
The concept of work done is fundamental in physics. Whether you are studying physics as a pastime or preparing for tests such as the MCAT, AP Physics, GCSE, or IB, you must track your progress.
You can test your concepts in this Work done quiz by taking this online practice ... | 4 | [
-0.07666015625,
0.0213623046875,
-0.006591796875,
-0.029052734375,
-0.0498046875,
-0.032470703125,
-0.00168609619140625,
0.016845703125,
-0.004302978515625,
0.06884765625,
0.0166015625,
-0.0517578125,
-0.005126953125,
0.04833984375,
-0.06591796875,
0.076171875,
0.0203857421875,
0.0... | 13,702,371 | 13702371 | |
VTechWorks Repository :: Browsing by Author "Greenberg, William"
Browsing by Author "Greenberg, William"
Now showing 1 - 20 of 31
Results Per Page
Sort Options
• Analytical solutions of model equations for two phase gas mixtures: Transverse velocity perturbations
Cavalier, J. F.; Greenberg, William (AIP Pub... | 4 | [
-0.038818359375,
0.024169921875,
0.0927734375,
-0.015869140625,
-0.030029296875,
0.0281982421875,
0.0172119140625,
0.072265625,
0.013671875,
-0.04931640625,
-0.010986328125,
-0.01416015625,
-0.0111083984375,
-0.037353515625,
-0.0023651123046875,
0.038818359375,
0.01239013671875,
-0... | 13,702,372 | 13702372 | |
A rolling bearing fault diagnosis method based on VMD – multiscale fractal dimension/energy and optimized support vector machine
Abstract
To achieve the goal of automated rolling bearing fault diagnosis, a variational mode decomposition (VMD) based diagnosis scheme was proposed. VMD was firstly used to decompose the v... | 4 | [
0.0118408203125,
-0.014892578125,
0.0927734375,
0.032470703125,
0.0159912109375,
-0.0262451171875,
-0.043701171875,
0.04541015625,
-0.0869140625,
-0.056640625,
-0.03955078125,
-0.0322265625,
-0.036865234375,
-0.007720947265625,
-0.06201171875,
-0.027099609375,
0.008056640625,
0.021... | 13,702,373 | 13702373 | |
Preview Section 1 Newton's Second Section 5 Extra questions. - ppt video online download
1 Preview Section 1 Newton's Second Section 5 Extra questions
2 Net Force - the Sum of the ForcesThis car is moving with a constant velocity. Fforward = road pushing the tires Fresistance = force caused by friction and air Forces... | 4 | [
-0.0235595703125,
0.034912109375,
-0.015380859375,
-0.020263671875,
-0.00384521484375,
0.029541015625,
-0.060791015625,
0.056396484375,
0.000659942626953125,
0.1298828125,
0.08447265625,
-0.01019287109375,
-0.023193359375,
-0.0033111572265625,
-0.058349609375,
0.06640625,
-0.01251220... | 13,702,374 | 13702374 | |
Robustness of SACEMS Based on Sharpe Ratio
Subscribers have asked whether risk-adjusted returns might work better than raw returns for ranking Simple Asset Class ETF Momentum Strategy (SACEMS) assets. In fact, “Alternative Momentum Metrics
for SACEMS?” supports belief that Sharpe ratio beats raw returns. Is this findin... | 4 | [
-0.064453125,
-0.09326171875,
-0.08056640625,
0.0067138671875,
0.0247802734375,
-0.0218505859375,
-0.03173828125,
0.04541015625,
-0.031494140625,
-0.0133056640625,
-0.06689453125,
0.004486083984375,
0.0263671875,
-0.02197265625,
-0.000682830810546875,
-0.09521484375,
0.1484375,
0.0... | 13,702,375 | 13702375 | |
If The 20th Term Is -40 And Your 28th Term Is -73, What Will Be The First Term
Answer:
The first term will be 38.375
Step-by-step explanation:
aₙ = a₁ + (n - 1) * d
a₂₀ = -40
a₂₈ = -73
-40 = a₁ + 19d
-73 = a₁ + 27d
When we have two similar equations with two unknowns, we can subtract them to get an answer.
-4... | 4 | [
-0.1181640625,
0.04443359375,
0.0380859375,
-0.043212890625,
-0.09423828125,
-0.040771484375,
-0.031005859375,
0.08349609375,
-0.0257568359375,
0.035888671875,
0.12353515625,
-0.031494140625,
0.042724609375,
0.02783203125,
-0.0712890625,
0.01123046875,
-0.09033203125,
0.037109375,
... | 13,702,376 | 13702376 | |
Wolfram SystemModeler in Electrical Engineering Courses
Explore the contents of this article with a free Wolfram SystemModeler trial. I’m an electrical engineer by training. In my first circuits class, all calculations were done by hand, and we could
check solutions with unintuitive circuit simulators using the SPICE... | 5 | [
-0.002716064453125,
0.0019683837890625,
0.0286865234375,
0.00933837890625,
-0.03857421875,
-0.08837890625,
-0.060546875,
0.05859375,
-0.0517578125,
0.0625,
0.004974365234375,
-0.080078125,
0.0849609375,
-0.00154876708984375,
-0.0263671875,
0.0167236328125,
-0.02392578125,
0.0607910... | 13,702,377 | 13702377 | |
Automatic Registration of Multi-Projector Based on Coded Structured Light
The State Key Laboratory of VR Technology & Systems, Beihang University, Beijing 100191, China
^*
Author to whom correspondence should be addressed.
Submission received: 19 October 2019 / Revised: 4 November 2019 / Accepted: 8 November 2019 /... | 4 | [
-0.017578125,
0.0184326171875,
-0.03369140625,
-0.111328125,
-0.061279296875,
-0.001312255859375,
-0.031982421875,
-0.00201416015625,
0.06689453125,
-0.002288818359375,
0.0301513671875,
-0.042724609375,
0.046142578125,
0.03076171875,
-0.0155029296875,
-0.033935546875,
-0.0693359375,
... | 13,702,378 | 13702378 | |
Best Implicit Differentiation Calculator with Steps | PineCalculator
Introduction to Implicit Differentiation Calculator:
Implicit differentiation calculator is an online tool that helps you to find the differentiation of a function, with more than one independent variable. It means you evaluate the complex implicit
f... | 5 | [
-0.052978515625,
-0.04931640625,
-0.01226806640625,
0.0703125,
-0.01318359375,
-0.07666015625,
-0.059814453125,
0.0076904296875,
0.04736328125,
0.0216064453125,
0.130859375,
0.0279541015625,
-0.0299072265625,
0.09521484375,
0.0908203125,
-0.037841796875,
-0.1513671875,
0.0341796875... | 13,702,379 | 13702379 | |
Measured Variability Of Southern Yellow Pine - Manual for LS-DYNA Wood Material Model 143
PDF Version
... | 4 | [
-0.02001953125,
-0.07275390625,
0.05322265625,
0.035400390625,
0.037353515625,
-0.061279296875,
-0.01025390625,
0.0234375,
0.027587890625,
0.045166015625,
-0.1103515625,
0.0791015625,
-0.0240478515625,
0.0478515625,
-0.07275390625,
0.048583984375,
-0.06640625,
0.0186767578125,
-0... | 13,702,380 | 13702380 | |
How do I find the integral
int(x-9)/((x+5)(x-2))dx ? | HIX Tutor
How do I find the integral #int(x-9)/((x+5)(x-2))dx# ?
Answer 1
This integral can be solved by using the Partial Fractions approach, giving an answer of
#2ln(x+5)-ln(x-2) + C#
The partial fractions approach is useful for integrals which have a denomin... | 5 | [
-0.0458984375,
0.033935546875,
0.08837890625,
-0.0281982421875,
0.0615234375,
0.06982421875,
-0.045654296875,
-0.00012111663818359375,
-0.051025390625,
-0.05126953125,
0.03125,
-0.0712890625,
-0.027587890625,
0.04296875,
0.0174560546875,
0.0169677734375,
0.0147705078125,
0.05639648... | 13,702,381 | 13702381 | |
This is rlly hard, PLS HELP
#1
0
0
26
1
In how many ways can three pairs of siblings from different families be seated in two rows of three chairs, if siblings may not sit next to each other in the same row?
Lilliam0216 Apr 20, 2024
There are two main cases to consider:
Case 1: Each row has exactly one child fr... | 4 | [
0.021484375,
-0.08251953125,
-0.054931640625,
-0.061767578125,
-0.052978515625,
-0.03662109375,
-0.0264892578125,
-0.05712890625,
0.004913330078125,
0.001800537109375,
-0.0186767578125,
-0.057373046875,
0.111328125,
-0.03759765625,
-0.023681640625,
0.007659912109375,
0.01025390625,
... | 13,702,382 | 13702382 | |
Fixed Points Of Mappings Of Metric Spaces [PDF] [4fbp44o8st90]
E-Book Content
FIXED POINTS OF MAPPINGS OF METRIC SPACES UDC 513.83
A. A. Ivanov
A survey of the theory of fixed points of mappings of metric spaces, some unpublished results of the author,
containing
is presented.
Anyone who tries to expound a theory... | 5 | [
-0.04052734375,
-0.022705078125,
0.047607421875,
-0.052490234375,
-0.037841796875,
0.060302734375,
0.07080078125,
0.03515625,
0.06298828125,
-0.00360107421875,
0.0223388671875,
-0.00885009765625,
0.025634765625,
-0.0234375,
0.02099609375,
-0.08154296875,
0.007781982421875,
-0.01940... | 13,702,383 | 13702383 | |
Thermodynamic Analysis of Anomalous Shape of Stress–Strain Curves for Shape Memory Alloys
^1
Department of Solid State Physics, University of Debrecen, P.O. Box 400, H-4002 Debrecen, Hungary
^2
Physics Department, Faculty of Science, Ain Shams University, Cairo 11566, Egypt
^*
Author to whom correspondence should... | 4 | [
-0.052734375,
-0.0294189453125,
-0.0269775390625,
0.1171875,
0.01116943359375,
0.031005859375,
0.00494384765625,
0.09375,
0.051513671875,
-0.03759765625,
-0.042724609375,
-0.034912109375,
0.02685546875,
-0.00299072265625,
0.0020904541015625,
-0.083984375,
-0.062255859375,
-0.030273... | 13,702,384 | 13702384 | |
Frontiers | Odds Ratio or Prevalence Ratio? An Overview of Reported Statistical Methods and Appropriateness of Interpretations in Cross-sectional Studies with Dichotomous Outcomes in Veterinary Medicine
• ^1Laboratory of Veterinary Epidemiology, Faculty of Veterinary, Department of Preventive Veterinary Medicine, Uni... | 4 | [
0.058837890625,
0.0029449462890625,
0.01214599609375,
0.06591796875,
0.01531982421875,
-0.0032501220703125,
-0.049560546875,
0.0986328125,
0.078125,
0.048095703125,
0.068359375,
-0.030029296875,
0.0137939453125,
0.1181640625,
-0.051025390625,
-0.0281982421875,
0.0103759765625,
-0.0... | 13,702,385 | 13702385 | |
Notes on Regression - OLS
Published on
Notes on Regression - OLS
Authors
This post is the first in a series of my study notes on regression techniques. I first learnt about regression as a way of fitting a line through a series of points. Invoke some assumptions and one
obtains the relationship between two variables... | 4 | [
-0.1103515625,
-0.01025390625,
-0.0030364990234375,
0.06689453125,
0.064453125,
0.0556640625,
-0.0191650390625,
0.031982421875,
0.043701171875,
0.07470703125,
0.0439453125,
0.142578125,
0.02978515625,
-0.007781982421875,
-0.053955078125,
0.02197265625,
-0.040283203125,
0.0126953125... | 13,702,386 | 13702386 | |
Periodic compounding
edit
The total accumulated value, including the principal sum ${\displaystyle P}$ plus compounded interest ${\displaystyle I}$ , is given by the formula:^[8]^[9] ${\displaystyle A=P\left(1+{\frac {r}{n}}\
right)^{tn}}$
where:
• A is the final amount
• P is the original principal sum
• r ... | 5 | [
-0.029296875,
0.01422119140625,
0.00191497802734375,
0.030029296875,
0.0167236328125,
-0.0419921875,
0.06884765625,
0.06640625,
0.024169921875,
0.0791015625,
0.057373046875,
0.0240478515625,
-0.024169921875,
0.10107421875,
0.034912109375,
-0.0078125,
-0.06640625,
-0.033203125,
0.... | 13,702,387 | 13702387 | |
Appendix B Solutions to Exercises
Chapter 2
2.1. Calculate the work done per mole when an ideal gas is expanded reversibly by a factor of 3 at 120 °C.
The work is done by the system (hence we count it as negative) in a reversible process from state ’1’ at the volume V [start] = V [1] to state ’2’ at volume V [end] =... | 5 | [
-0.08056640625,
0.052978515625,
-0.02099609375,
0.0263671875,
-0.046142578125,
-0.10302734375,
0.036865234375,
0.01953125,
0.041015625,
0.061279296875,
-0.03857421875,
0.023193359375,
-0.006500244140625,
0.00014400482177734375,
-0.0152587890625,
-0.0654296875,
0.004119873046875,
-0... | 13,702,388 | 13702388 | |
Cash Flow to Debt Ratio Calculator
Last updated:
Cash Flow to Debt Ratio Calculator
Cash flow to debt ratio calculator is a coverage ratio tool that measures how much indebted a company is relative to the cash flow generated from operations during each fiscal period. This article
will cover the cash flow to debt rati... | 4 | [
-0.0322265625,
-0.0634765625,
-0.06396484375,
-0.015869140625,
0.023681640625,
-0.0145263671875,
-0.01904296875,
0.00213623046875,
0.04833984375,
-0.01611328125,
0.006011962890625,
-0.055419921875,
-0.053466796875,
-0.0281982421875,
0.026611328125,
-0.0576171875,
-0.0072021484375,
... | 13,702,389 | 13702389 | |
Interpret Equations
Equations are mathematical sentences. We write equations to solve for variables that we don't know, but can predict based upon other variables. Some of the most useful -- and difficult -- math
problems ask students to write or interpret equations. What does this variable mean? What happens to variab... | 4 | [
-0.0267333984375,
0.0615234375,
-0.0218505859375,
0.06884765625,
-0.058349609375,
-0.01080322265625,
0.00121307373046875,
0.01904296875,
0.09619140625,
0.044189453125,
0.038330078125,
0.0208740234375,
0.0087890625,
0.0546875,
0.0115966796875,
0.05859375,
-0.07568359375,
0.083984375... | 13,702,390 | 13702390 | |
Markov Chain Monte Carlo (MCMC)
• Baye’s rule and definitions
• Estimating coin bias example
□ Analytic
□ Numerical integration
□ Metropolis-Hastings sampler
□ Gibbs sampler
□ Slice sampler
• Why does MCMC work?
□ Markov chains and stationary states
□ Conditions for conv... | 5 | [
-0.06884765625,
-0.05712890625,
0.0693359375,
-0.0281982421875,
0.087890625,
-0.055419921875,
0.00701904296875,
-0.001678466796875,
0.0380859375,
0.0189208984375,
0.04150390625,
-0.03759765625,
0.07275390625,
-0.034423828125,
-0.0011444091796875,
-0.0022125244140625,
0.060791015625,
... | 13,702,391 | 13702391 | |
explain prim's algorithm with example
As a greedy algorithm, Primâ s algorithm will select the cheapest edge and mark the vertex. Any scenario that carries a Geometry that is dense enough - and where the conditions of Weight assignment
is fullfilled. The corresponding weights of the edges are 2, 2, and 5, therefore th... | 4 | [
-0.04296875,
0.0849609375,
0.06689453125,
0.003021240234375,
0.034912109375,
-0.0201416015625,
0.02001953125,
0.03662109375,
-0.056396484375,
0.06689453125,
-0.0174560546875,
0.02490234375,
-0.01092529296875,
-0.01214599609375,
0.006103515625,
0.0250244140625,
0.0869140625,
-0.0005... | 13,702,392 | 13702392 | |
ter
⇡
5.1Designing Register Machines
To design a register machine, we must design its data paths (registers and operations) and the controller that sequences these operations. To illustrate the design of a simple register machine, let
us examine Euclid’s Algorithm, which is used to compute the greatest common diviso... | 4 | [
-0.125,
0.025146484375,
-0.08154296875,
-0.08544921875,
-0.052734375,
-0.09912109375,
0.053466796875,
0.034423828125,
-0.010986328125,
0.00616455078125,
0.00927734375,
0.028076171875,
0.0498046875,
-0.053955078125,
-0.00396728515625,
-0.007080078125,
-0.068359375,
0.01336669921875,... | 13,702,393 | 13702393 | |
9.7 The Kinetic-Molecular Theory
Learning Outcomes
• Use kinetic molecular theory to explain the properties of gases
The gas laws that we have seen to this point, as well as the ideal gas equation, are empirical, that is, they have been derived from experimental observations. The mathematical forms of these laws
c... | 4 | [
-0.03857421875,
-0.052734375,
0.02978515625,
-0.0012054443359375,
0.06884765625,
0.02880859375,
0.0272216796875,
0.05908203125,
0.044921875,
0.08544921875,
-0.0279541015625,
-0.0196533203125,
-0.08154296875,
0.0203857421875,
0.072265625,
-0.0615234375,
-0.032470703125,
0.0096435546... | 13,702,394 | 13702394 | |
1.2 Calculus Without Limits
The next page is going to reveal one of the key ideas behind calculus. The discussion is just about numbers—functions and slopes can wait. The numbers are not even special, they can be any numbers.
The crucial point is to look at their differences:
Suppose the numbers are ƒ = 0 2 6 7 4 9... | 5 | [
-0.08544921875,
-0.0042724609375,
0.021728515625,
-0.0419921875,
0.062255859375,
0.059326171875,
-0.07421875,
0.055419921875,
0.032958984375,
0.025390625,
-0.034423828125,
-0.0004825592041015625,
-0.043701171875,
0.07421875,
-0.051025390625,
-0.078125,
-0.03564453125,
0.00891113281... | 13,702,395 | 13702395 | |
Vernier Caliper: How to read a vernier caliper in mm? what is vernier caliper?
I. Introduction of Vernier Caliper
A. Definition of Vernier Caliper
A vernier caliper is defined as a measuring device that is used for the measurement of linear dimensions. It is also used to measure the diameters of round objects with ... | 4 | [
-0.00811767578125,
-0.037109375,
-0.02880859375,
-0.01483154296875,
-0.07666015625,
-0.046875,
-0.05224609375,
0.1435546875,
0.08203125,
-0.0166015625,
0.07666015625,
-0.1279296875,
0.0400390625,
0.0908203125,
-0.142578125,
-0.10546875,
-0.01385498046875,
0.09033203125,
-0.027099... | 13,702,396 | 13702396 | |
The general theory of sets of points is of the utmost interest and importance in the higher branches of analysis; but it is for the most part too difficult to be included in a book such as this.
There is however one fundamental theorem which is easily deduced from Dedekind’s Theorem and which we shall require later.
... | 4 | [
-0.0732421875,
0.03515625,
-0.03271484375,
-0.039306640625,
0.0189208984375,
0.091796875,
0.08642578125,
0.035400390625,
0.10546875,
-0.0986328125,
-0.0216064453125,
0.038330078125,
-0.0024261474609375,
-0.05224609375,
0.046142578125,
-0.08203125,
-0.018310546875,
-0.047607421875,
... | 13,702,397 | 13702397 | |
Bezier Curve
Mathematical
A Bezier curve is a parametric equation about the points that represent a curve. We specify within the equation:
$0 \leqslant t \leqslant 1$
As the parameter t growth, we can get the point coordinates on any curve.
If the curve only have two control points, then this will be a straight lin... | 4 | [
-0.0238037109375,
-0.111328125,
-0.053466796875,
0.0230712890625,
-0.048828125,
-0.02734375,
-0.00982666015625,
0.037109375,
0.0791015625,
0.0576171875,
0.01129150390625,
0.000762939453125,
0.058837890625,
0.0211181640625,
-0.00010919570922851562,
0.044189453125,
0.0023040771484375,
... | 13,702,398 | 13702398 | |
Notation
edit
There are at least four different and incompatible systems of notation for Boolean rings and algebras:
• In commutative algebra the standard notation is to use x + y = (x ∧ ¬ y) ∨ (¬ x ∧ y) for the ring sum of x and y, and use xy = x ∧ y for their product.
• In logic, a common notation is to use x... | 4 | [
-0.03076171875,
-0.0096435546875,
-0.0927734375,
-0.016357421875,
-0.03955078125,
-0.039306640625,
0.080078125,
-0.02490234375,
0.033203125,
-0.07861328125,
-0.01239013671875,
0.024169921875,
0.09228515625,
0.0196533203125,
0.041015625,
0.07373046875,
-0.03369140625,
0.064453125,
... | 13,702,399 | 13702399 |