content string | quality_label int64 | meta string | all-MiniLM-L6-v2_embedding list | doc_id int64 | unique_id string |
|---|---|---|---|---|---|
Dependent Reward Revelation and Offline Evaluation
In my
previous post
I continued my mostly unsuccessful struggle with a learning through exploration problem where the set of rewards revealed depends upon the value of the reward vector (aka ``dependent reward
revelation''). The motivating example is price differenti... | 4 | [
-0.10009765625,
0.0208740234375,
0.0194091796875,
0.0038604736328125,
0.08349609375,
0.078125,
0.01446533203125,
0.0380859375,
-0.048583984375,
0.06884765625,
-0.0106201171875,
0.0260009765625,
0.033935546875,
0.031982421875,
-0.0211181640625,
0.04150390625,
0.07861328125,
0.002731... | 13,706,600 | 13706600 | |
Intermodulation Explained with Examples
Intermodulation products are unwanted signals. They leak into other channels and creates distortion. As we discussed, not all the components cause problems, and most of them can be ignored and
filtered out as the amplitude of harmonics decreases as the order increases in a non-... | 5 | [
-0.05859375,
0.0185546875,
0.026123046875,
-0.04833984375,
-0.00836181640625,
-0.013671875,
0.0026702880859375,
-0.00897216796875,
0.01025390625,
0.00396728515625,
-0.00921630859375,
0.00099945068359375,
0.016845703125,
-0.08984375,
0.0615234375,
0.0546875,
0.078125,
0.044189453125... | 13,706,601 | 13706601 | |
Question 9Find the intersection of the three plane - Asksia.ai
Answer from Sia
Posted 7 months ago
Solution by Steps
step 1
To find the intersection of the three planes, we can solve the system of equations given by the plane equations
step 2
The system of equations is: $\begin{cases} x + y + 2z = -2 \\ 3x - y + ... | 4 | [
-0.0810546875,
-0.007049560546875,
-0.005523681640625,
-0.0281982421875,
0.046630859375,
-0.000881195068359375,
0.038818359375,
0.052734375,
-0.0634765625,
-0.0034332275390625,
0.0301513671875,
-0.0274658203125,
0.0184326171875,
-0.0257568359375,
-0.046630859375,
0.01904296875,
-0.08... | 13,706,602 | 13706602 | |
The two principals in wealth building that an investor must understand are the Time Value of Money and Leverage. This post describes TVM and a few things about financial calculators.
But first 5 definitions: Compounding(i) & Discounting(i), Present Value(PV), Future Value (FV), Payment (PMT), Holding Period (n).
(A)... | 4 | [
-0.0400390625,
0.040771484375,
-0.013671875,
-0.035400390625,
-0.0634765625,
-0.035400390625,
-0.01708984375,
0.062255859375,
0.04541015625,
0.09521484375,
0.005859375,
-0.0257568359375,
0.00787353515625,
-0.00543212890625,
-0.0279541015625,
0.0048828125,
-0.0771484375,
-0.01220703... | 13,706,603 | 13706603 | |
Calculating the Small-Signal Parameters of a Speaker Driver from FEA
While small-signal (or Thiele–Small) and large-signal parameters used in a lumped representation of a speaker driver are often obtained via measurement, we can also extract their values from detailed
finite element models. In this part of the course,... | 4 | [
-0.00262451171875,
0.06591796875,
-0.06494140625,
0.009765625,
-0.05419921875,
0.0179443359375,
-0.0086669921875,
0.0201416015625,
-0.0023651123046875,
-0.06103515625,
0.06591796875,
0.016845703125,
0.043212890625,
-0.0220947265625,
-0.0233154296875,
-0.0079345703125,
0.036865234375,... | 13,706,604 | 13706604 | |
Products and Quotients | A Level Maths Revision Notes
Products and Quotients – (Differentiation)
A function is a transformation that gives a single output for a given input. The transformation is according to a rule. The rule varies depending on the type of the function. For example, for the
function f(x) = 2x, the ru... | 5 | [
-0.058837890625,
-0.09326171875,
0.0238037109375,
-0.04541015625,
0.01275634765625,
-0.044921875,
-0.055419921875,
0.047607421875,
0.0947265625,
0.039794921875,
0.07861328125,
-0.0021820068359375,
0.044189453125,
0.035400390625,
0.034423828125,
0.059814453125,
-0.10791015625,
0.068... | 13,706,605 | 13706605 | |
How is 0.00124 expressed in proper scientific notation? | Socratic
How is 0.00124 expressed in proper scientific notation?
1 Answer
Explanation:
A number expressed in scientific notation must have the form
$\textcolor{w h i t e}{a a} \textcolor{b l u e}{m} \times {10}^{\textcolor{p u r p \le}{n} \textco... | 4 | [
-0.0224609375,
-0.01556396484375,
-0.029296875,
0.003570556640625,
-0.080078125,
0.003326416015625,
0.048095703125,
0.047119140625,
0.08251953125,
0.052734375,
0.0595703125,
-0.0233154296875,
0.06591796875,
0.057861328125,
-0.0546875,
0.0791015625,
-0.049560546875,
-0.045654296875,... | 13,706,606 | 13706606 | |
Fibonacci calculator is a Forex calculator for retracement and projection prices with Fibonacci levels.
With this calculator you can easy get Fibonacci levels for trading analysis to see where are resistance or support levels on the chart.
With Fibonacci levels you can maximize the projection of the stop loss and ta... | 4 | [
-0.0240478515625,
0.0303955078125,
-0.0673828125,
-0.056640625,
-0.03955078125,
-0.02197265625,
-0.10205078125,
0.1103515625,
0.072265625,
0.052490234375,
-0.0634765625,
-0.09423828125,
-0.03271484375,
0.0400390625,
-0.034912109375,
-0.07421875,
-0.0771484375,
0.1328125,
0.017456... | 13,706,607 | 13706607 | |
It is often claimed people cannot program their way out of a paper bag. Frances Buontempo bucks the trend using genetic algorithms.
It is frequently suggested that people cannot program their way out of a paper bag, and a quick Google for the state-of-the-art currently reveals nothing until FizzBuzz is added to the s... | 4 | [
-0.1728515625,
0.0732421875,
-0.05419921875,
-0.00921630859375,
0.0062255859375,
-0.040771484375,
0.0478515625,
0.022216796875,
-0.1337890625,
0.0031585693359375,
-0.08447265625,
-0.029296875,
0.0830078125,
0.0189208984375,
-0.06201171875,
-0.0167236328125,
-0.0281982421875,
0.0266... | 13,706,608 | 13706608 | |
Vector Addition
Online vector calculator - add vectors with different magnitude and direction - like forces, velocities and more.
In mechanics there are two kind of quantities
• scalar quantities with magnitude - time, temperature, mass etc.
• vector quantities with magnitude and direction - velocity, force etc.
... | 4 | [
0.029052734375,
-0.043212890625,
-0.11279296875,
-0.10791015625,
-0.04296875,
0.010009765625,
-0.06884765625,
0.02978515625,
0.0011749267578125,
0.07080078125,
0.07275390625,
-0.029541015625,
-0.0517578125,
0.015625,
-0.016845703125,
-0.0693359375,
-0.07861328125,
0.0947265625,
-... | 13,706,609 | 13706609 | |
Prepare 1M HCl; the purity of HCl is 36%.
Understand the Problem
The question is asking how to prepare a 1 molar solution of hydrochloric acid (HCl) from a stock solution that has a purity of 36%. It implies a need for calculations to determine how much of the
concentrated solution is required to dilute to the desire... | 4 | [
0.07421875,
-0.003021240234375,
0.015625,
-0.056396484375,
-0.034912109375,
-0.0458984375,
0.025390625,
0.099609375,
-0.0201416015625,
-0.0556640625,
0.0213623046875,
-0.0673828125,
0.05078125,
0.00848388671875,
-0.000545501708984375,
0.050537109375,
0.010009765625,
0.0087890625,
... | 13,706,610 | 13706610 | |
Parent and Family Graphs
Adding a Constant
Now consider a family of quadratic functions that are found by adding a constant to y = x^ 2 . Graph the following functions on graphing calculators.
y = x^ 2, y = x^ 2 - 2, y = x ^2 + 2, y = x^ 2 + 4
Try to find out what happens to the graphs of quadratic functions of th... | 4 | [
-0.023193359375,
-0.003875732421875,
-0.0005035400390625,
-0.015625,
-0.00811767578125,
-0.002044677734375,
-0.08544921875,
0.04638671875,
0.0260009765625,
-0.0220947265625,
0.12255859375,
-0.04638671875,
-0.037353515625,
0.05517578125,
-0.025146484375,
0.0791015625,
-0.045166015625,... | 13,706,611 | 13706611 | |
the
For the function \(y=-4 x^{2}+8 x+9\) find the domain, range, and the maximum value for \(y\)
Short Answer
Expert verified
Domain: \( \mathbb{R} \). Range: \( (-\infty, 13] \). Maximum value for \( y \): 13.
Step by step solution
01
- Determine the Domain
The domain of a quadratic function is all real num... | 4 | [
0.037841796875,
0.014404296875,
-0.0341796875,
-0.10693359375,
-0.030029296875,
-0.01953125,
-0.045654296875,
0.130859375,
-0.0111083984375,
-0.0277099609375,
0.03857421875,
0.01043701171875,
0.061767578125,
0.0615234375,
0.0252685546875,
0.07666015625,
0.04296875,
-0.083984375,
... | 13,706,612 | 13706612 | |
Soft k-NN
[this post was originally posted here in March 2020 and has been ported here for easier access.]
TL;DR: after all, isn’t $k$-NN all we do?
in my course, i use $k$-NN as a bridge between a linear softmax classifier and a deep neural net via an adaptive radial basis function network. until this year, i’ve b... | 4 | [
-0.11376953125,
-0.10302734375,
0.037841796875,
-0.004852294921875,
0.0101318359375,
0.061767578125,
0.052978515625,
-0.059814453125,
-0.005523681640625,
-0.06884765625,
-0.051025390625,
0.01171875,
-0.01177978515625,
0.008056640625,
-0.0703125,
0.053466796875,
0.07763671875,
0.045... | 13,706,613 | 13706613 | |
In celestial mechanics, the longitude of the periapsis, also called longitude of the pericenter, of an orbiting body is the longitude (measured from the point of the vernal equinox) at which the
periapsis (closest approach to the central body) would occur if the body's orbit inclination were zero. It is usually denote... | 4 | [
0.0089111328125,
0.01953125,
0.00830078125,
-0.060791015625,
-0.002777099609375,
-0.01171875,
-0.003997802734375,
0.032958984375,
0.177734375,
0.0087890625,
0.11865234375,
-0.0011749267578125,
0.0123291015625,
-0.044677734375,
0.040283203125,
-0.0023345947265625,
-0.07470703125,
0.... | 13,706,614 | 13706614 | |
Introduction to the Functions – SUMPRODUCT, INDEX and MATCH (with Examples)
Before delving into how these three powerful functions work together, let’s introduce each function and understand their individual processes:
1. SUMPRODUCT Function
• Syntax: =SUMPRODUCT(array1,[array2],[array3],…)
• Function: Returns... | 5 | [
-0.0595703125,
0.0615234375,
0.010986328125,
-0.038818359375,
-0.0157470703125,
0.0289306640625,
-0.0033111572265625,
0.052734375,
0.0087890625,
0.00262451171875,
-0.01409912109375,
-0.09423828125,
0.049560546875,
-0.056396484375,
-0.0091552734375,
0.051025390625,
-0.052734375,
0.0... | 13,706,615 | 13706615 | |
BarycentricInterpolation.jl
This Julia package implements the Barycentric formula for polynomial interpolation on equispaced points and Chebyshev points of the first and second kind. The formulae used are taken from the paper
of Berrut and Trefethen, SIAM Review, 2004.
This is not a general purpose interpolation packa... | 5 | [
-0.111328125,
-0.01239013671875,
-0.00677490234375,
-0.0296630859375,
-0.03369140625,
-0.0179443359375,
0.0045166015625,
0.06201171875,
0.052001953125,
-0.058349609375,
0.00147247314453125,
0.00927734375,
0.0286865234375,
-0.064453125,
-0.01116943359375,
-0.09130859375,
-0.0200195312... | 13,706,616 | 13706616 | |
WEEK 15-LINEAR-FUNCTIONS-IN-SLOPE-INTERCEPT-FORM
Want to make creations as awesome as this one?
WEEK 15-LINEAR-FUNCTIONS-IN-SLOPE-INTERCEPT-FORM
VIMSCHOOL
Created on September 10, 2024
More creations to inspire you
Transcript
Objectives
Start
Linear Functions in Slope-Intercept Form
1
2
Linear Function Equat... | 4 | [
-0.09228515625,
-0.01068115234375,
-0.0185546875,
-0.054931640625,
0.041015625,
0.078125,
-0.04248046875,
0.01953125,
-0.06591796875,
0.046630859375,
0.06787109375,
-0.052490234375,
0.0213623046875,
-0.0308837890625,
0.0235595703125,
0.1494140625,
-0.0966796875,
0.00142669677734375... | 13,706,617 | 13706617 | |
N
HTML automatically generated with rman
Table of Contents
lsq_zero, lsq_accum, lsq_solve - least squares fitting utilities
int lsq_zero (n, mat, vec)
int lsq_accum (n, mat, vec, a, w)
int lsq_solve (n, mat, vec, sol)
int lsq_cfill (n, mat, c, sol)
int n, c;
real mat[n*n], vec[n], sol[n], a[n+1], w;
DescriptionThese... | 5 | [
-0.0751953125,
0.003448486328125,
-0.04345703125,
0.025390625,
0.050537109375,
-0.04541015625,
-0.08642578125,
-0.0157470703125,
-0.0023193359375,
0.03955078125,
0.046142578125,
0.041748046875,
0.07958984375,
-0.0458984375,
-0.08251953125,
0.0869140625,
-0.034912109375,
0.000907897... | 13,706,618 | 13706618 | |
Solving Rational Equations (+ Questions)
The rational equations have the form , where P(x) and Q(x) are polynomials. The solution set of such an equation contains all the values of x which satisfy the equation.
We can solve a rational equation by transforming it to a simple equation using the least common denominator ... | 4 | [
-0.11083984375,
0.0291748046875,
0.003753662109375,
0.07568359375,
-0.035400390625,
-0.0189208984375,
0.0013885498046875,
-0.02978515625,
0.06689453125,
-0.0291748046875,
0.033203125,
-0.08447265625,
0.0546875,
0.12255859375,
0.04541015625,
-0.01318359375,
-0.034423828125,
-0.02893... | 13,706,619 | 13706619 | |
t
How to calculate the rateable weight
The experience of a leader Security and traceability in all shipments
How to calculate the rateable weight
When it comes to exporting or importing goods, one of the critical factors affecting cost is the rateable weight. This weight may differ from the actual weight of the goo... | 4 | [
-0.0264892578125,
0.01434326171875,
-0.064453125,
0.06640625,
0.0286865234375,
-0.00946044921875,
0.09716796875,
0.083984375,
0.01495361328125,
0.03466796875,
0.0361328125,
-0.047607421875,
0.016845703125,
0.09521484375,
-0.1220703125,
-0.07666015625,
0.0830078125,
0.03857421875,
... | 13,706,620 | 13706620 | |
Randomly Stopped Sums vs the sum of I.I.D. Random Variables
• I
• Thread starter CGandC
• Start date
In summary, there are two theorems related to Probability Generating Functions. The first one states that the PGF of the sum of independent random variables is equal to the product of their
individual PGFs. The ... | 4 | [
-0.1083984375,
-0.05126953125,
0.07421875,
-0.03173828125,
0.1455078125,
0.0013885498046875,
0.1923828125,
-0.03369140625,
0.07275390625,
0.04833984375,
0.002655029296875,
0.11962890625,
0.011474609375,
-0.06591796875,
-0.00897216796875,
0.00494384765625,
0.0152587890625,
-0.014343... | 13,706,621 | 13706621 | |
Supersingular isogeny key exchange - BitcoinWiki
Supersingular isogeny key exchange
Supersingular isogeny Diffie–Hellman key exchange (SIDH) is a cryptographic algorithm used to establish a secret key between two parties over an otherwise insecure communications channel. It is a
form of the , but is designed to resist... | 4 | [
-0.035888671875,
0.0712890625,
-0.020263671875,
-0.03857421875,
-0.06103515625,
-0.0703125,
-0.037841796875,
-0.0216064453125,
-0.0147705078125,
0.0235595703125,
-0.0184326171875,
0.01336669921875,
0.0130615234375,
-0.0341796875,
0.038330078125,
-0.0167236328125,
-0.03759765625,
-0... | 13,706,622 | 13706622 | |
Radians to Degrees - Conversion, Formula, Examples
Radians and degrees conversion is a very crucial skill for advanced arithmetic learners to understand.
First, we need to specify what radians are in order that you can understand how this formula is used in practice. After that we’ll take it one step further by looki... | 4 | [
-0.0012054443359375,
0.004119873046875,
-0.1083984375,
0.04150390625,
0.0244140625,
-0.040771484375,
-0.0498046875,
0.050537109375,
0.09521484375,
0.035400390625,
0.0179443359375,
-0.026611328125,
0.08544921875,
0.049072265625,
0.076171875,
-0.140625,
-0.07421875,
0.09326171875,
... | 13,706,623 | 13706623 | |
31.5 Half-Life and Activity
Chapter 31 Radioactivity and Nuclear Physics
31.5 Half-Life and Activity
Summary
• Define half-life.
• Define dating.
• Calculate age of old objects by radioactive dating.
Unstable nuclei decay. However, some nuclides decay faster than others. For example, radium and polonium, disc... | 5 | [
-0.00127410888671875,
-0.00164794921875,
0.0242919921875,
0.0556640625,
0.06494140625,
-0.0703125,
-0.0751953125,
0.109375,
0.058349609375,
0.0888671875,
0.00054168701171875,
-0.05224609375,
0.048583984375,
0.026123046875,
0.046142578125,
0.04248046875,
-0.08203125,
-0.107421875,
... | 13,706,624 | 13706624 | |
How to Achieve Any Resistance/Capacitance Using Components You Already Have!
Introduction: How to Achieve Any Resistance/Capacitance Using Components You Already Have!
This is not just another series/parallel equivalent resistance calculator! This program calculates how to combine resistors/capacitors that you present... | 5 | [
0.0108642578125,
-0.006072998046875,
-0.00390625,
-0.0302734375,
-0.003936767578125,
-0.01055908203125,
-0.0145263671875,
0.007171630859375,
-0.07666015625,
0.03369140625,
-0.0302734375,
-0.11376953125,
0.0771484375,
0.06005859375,
-0.00653076171875,
-0.0159912109375,
-0.03662109375,... | 13,706,625 | 13706625 | |
Maximizing the Expected Value of a Lottery Ticket: How to Sell and When to Buy
With players attracted by the potential winnings from enormous lottery pools, multistate lotteries like Mega Millions and Powerball sell tens to hundreds of millions of tickets each week across the
United States. Larger lottery pools attrac... | 4 | [
0.031494140625,
0.040283203125,
-0.02734375,
-0.05859375,
-0.053466796875,
-0.0289306640625,
0.0732421875,
0.049072265625,
0.048583984375,
0.0206298828125,
-0.138671875,
0.02294921875,
0.060302734375,
-0.021484375,
0.0306396484375,
-0.002899169921875,
-0.00145721435546875,
-0.08105... | 13,706,626 | 13706626 | |
\hat{j}+3\
Hint: Use a cross product of two vectors to find the value of \[b\times a\] and \[a\times b\]. Assume the vector \[r\] as \[r=x\hat{i}+y\hat{j}+z\hat{k}\] and write the equations satisfying the given
conditions. Solve those equations to get the value of the vector \[r\].
Complete step-by-step answer:
We hav... | 5 | [
-0.0673828125,
0.0283203125,
-0.12109375,
-0.0732421875,
0.01226806640625,
0.0546875,
0.11865234375,
-0.064453125,
-0.061767578125,
0.0732421875,
-0.0830078125,
-0.03857421875,
0.076171875,
0.03759765625,
0.0194091796875,
0.0240478515625,
-0.046875,
0.07861328125,
-0.022705078125... | 13,706,627 | 13706627 | |
Simple Exponential Smoothing
In the last video, you learnt about the simple moving average technique. In this technique, we considered a window of past few observations whose average determined the forecast of the next
observation.
In the simple moving average technique, we consider each observation in that window to... | 4 | [
-0.115234375,
-0.06640625,
0.07666015625,
0.05908203125,
0.043212890625,
-0.07568359375,
-0.0213623046875,
0.026611328125,
0.0888671875,
0.0113525390625,
-0.045654296875,
0.0830078125,
0.01287841796875,
-0.0274658203125,
-0.06396484375,
-0.018310546875,
-0.0673828125,
-0.0349121093... | 13,706,628 | 13706628 | |
RD Sharma Solutions for Class 10 Maths Chapter 2 Polynomials (2024)
RD Sharma Solutions Class 10 Maths Chapter 2 – Free PDF Download
RD Sharma Solutions for Class 10 Maths Chapter 2 –Polynomialsare provided here for students to study and excel in their board exams. Mathematics is one of the scoring subjects in Class 1... | 4 | [
-0.08349609375,
0.08203125,
0.01904296875,
-0.004547119140625,
-0.06689453125,
0.0556640625,
0.10107421875,
0.02587890625,
-0.0693359375,
-0.0068359375,
-0.009033203125,
-0.055908203125,
0.11865234375,
0.0341796875,
0.01141357421875,
0.01507568359375,
-0.0732421875,
-0.027587890625... | 13,706,629 | 13706629 | |
An elementary introduction to profinite groups
Introduction
This blog serves as an introduction to profinite groups without touching anything other than elementary group theory (no ring, field, Galois theory, topological group, etc.), though we may not be
able to go for further application.
Number system
We begin... | 4 | [
-0.055419921875,
-0.04833984375,
-0.0888671875,
0.01361083984375,
0.00408935546875,
0.01373291015625,
0.06591796875,
0.0400390625,
0.076171875,
-0.045166015625,
-0.0556640625,
0.0947265625,
-0.000537872314453125,
0.0205078125,
-0.0595703125,
-0.03564453125,
-0.0888671875,
0.0244140... | 13,706,630 | 13706630 | |
ems
Metabolic P systems
From Scholarpedia
Vincenzo Manca (2010), Scholarpedia, 5(3):9273. doi:10.4249/scholarpedia.9273 revision #139373 [link to/cite this article]
Metabolism is one of the basic phenomenon on which life is based. Any living organism has to maintain processes which: i) introduce matter of some kin... | 4 | [
-0.07275390625,
-0.00872802734375,
-0.07421875,
-0.023681640625,
0.05126953125,
0.02490234375,
0.033447265625,
0.0042724609375,
0.057861328125,
0.0712890625,
-0.027587890625,
-0.0181884765625,
-0.051513671875,
0.06982421875,
-0.00182342529296875,
-0.0203857421875,
-0.08154296875,
0... | 13,706,631 | 13706631 | |
Absolute Humidity Calculator
Last updated:
Absolute Humidity Calculator
New
The absolute humidity calculator allows you to find out the absolute humidity from the relative humidity and air temperature.
Continue reading this article to know:
• What is absolute humidity?
• What is the difference between absolute... | 5 | [
0.0380859375,
-0.0037689208984375,
-0.047119140625,
-0.01556396484375,
0.04443359375,
-0.09765625,
-0.043212890625,
0.0048828125,
-0.000751495361328125,
0.00041961669921875,
0.080078125,
-0.09521484375,
0.080078125,
0.0390625,
0.00185394287109375,
0.025390625,
0.05810546875,
0.0795... | 13,706,632 | 13706632 | |
How do you solve 4x-10=7-2x? | Socratic
How do you solve #4x-10=7-2x#?
3 Answers
Explanation:
Given: $4 x - 10 = 7 - 2 x$
Adding $2 x$ to both sides, we get
$4 x - 10 + 2 x = 7 - \textcolor{red}{\cancel{\textcolor{b l a c k}{2 x}}} + \textcolor{red}{\cancel{\textcolor{b l a c k}{2 x}}}$
$\implies 6 x - 10 = 7$
A... | 4 | [
-0.049560546875,
0.025634765625,
0.046875,
-0.0174560546875,
0.002105712890625,
0.11474609375,
0.03759765625,
0.03076171875,
-0.083984375,
0.021240234375,
0.0274658203125,
-0.0419921875,
0.05126953125,
0.0257568359375,
-0.03271484375,
0.062255859375,
-0.0712890625,
0.02978515625,
... | 13,706,633 | 13706633 | |
Self-Blinded Mineral Water Taste Test
Blind randomized taste-test of mineral/distilled/tap waters using Bayesian best-arm finding; no large differences in preference.
The kind of water used in tea is claimed to make a difference in the flavor: mineral water being better than tap water or distilled water. However, ... | 4 | [
-0.04443359375,
-0.095703125,
0.06494140625,
-0.017333984375,
0.02392578125,
-0.0181884765625,
-0.0023651123046875,
0.03271484375,
-0.0078125,
-0.0162353515625,
-0.0186767578125,
-0.0703125,
0.052734375,
-0.01409912109375,
-0.0299072265625,
-0.0654296875,
0.043701171875,
-0.0233154... | 13,706,634 | 13706634 | |
ation
• CDS Exam ELEMENTARY MATHEMATICS Study Material
Digitization help student to explore and study their academic courses online, as this gives them flexibility and scheduling their learning at their convenience. Kidsfront has prepared unique course
material of ELEMENTARY MATHEMATICS Data Interpretation for CDS E... | 4 | [
-0.0289306640625,
0.050537109375,
-0.03125,
-0.015380859375,
-0.0380859375,
-0.0517578125,
0.05029296875,
0.0712890625,
0.00726318359375,
0.06201171875,
0.022705078125,
0.00078582763671875,
0.046875,
0.033203125,
0.01336669921875,
-0.009033203125,
-0.08349609375,
0.0164794921875,
... | 13,706,635 | 13706635 | |
Lost in Transformation: The Horror and Wonder of Logit
Perhaps no other subject in applied statistics and machine learning has caused people as much trouble as the humble logit model. Most people who learn either subject start off with some form of
linear regression, and having grasped it, are then told that if they ha... | 4 | [
0.0400390625,
-0.02099609375,
0.006317138671875,
0.025146484375,
0.05712890625,
-0.0751953125,
0.0177001953125,
-0.037353515625,
0.047119140625,
0.04541015625,
0.0235595703125,
-0.01080322265625,
-0.0027008056640625,
0.034912109375,
0.0120849609375,
-0.05029296875,
-0.048095703125,
... | 13,706,636 | 13706636 | |
C
33 research outputs found
We consider the supersymmetric quantum mechanical system which is obtained by dimensionally reducing d=6, N=1 supersymmetric gauge theory with gauge group U(1) and a single charged hypermultiplet.
Using the deformation method and ideas introduced by Porrati and Rozenberg, we present a d... | 4 | [
-0.162109375,
0.01361083984375,
-0.01446533203125,
0.054443359375,
0.021728515625,
0.1025390625,
0.02734375,
0.06787109375,
-0.038330078125,
-0.03173828125,
-0.04638671875,
0.01171875,
0.00927734375,
0.0191650390625,
-0.040771484375,
-0.06689453125,
0.0205078125,
-0.06103515625,
... | 13,706,637 | 13706637 | |
Drew's Day
February 12, 2010
February 09, 2010
Over at
Dot Physics
, Rhett has been
explaining the inaccurate calculation of power
on a TV show that I have never heard of or had the chance to see. He posted a video of himself pulling the family minivan with the family inside. He even posted a video of his 6-ye... | 4 | [
-0.0203857421875,
0.02880859375,
-0.0011138916015625,
-0.0194091796875,
0.01409912109375,
-0.033935546875,
-0.060546875,
0.0810546875,
0.036865234375,
0.06494140625,
0.06640625,
0.0291748046875,
0.04443359375,
0.07177734375,
-0.07080078125,
0.0069580078125,
-0.0281982421875,
0.0373... | 13,706,638 | 13706638 | |
5. Formulas and Literal Equations
It is very common in science and engineering to have a formula that needs re-arranging so that a variable that is originally on the right hand side becomes the subject of the formula, on the left.
In this section, we need to find an expression (involving letters and numbers) which is... | 4 | [
-0.004058837890625,
0.029541015625,
0.033935546875,
0.05517578125,
-0.0595703125,
0.00433349609375,
-0.03271484375,
0.06591796875,
-0.03662109375,
0.024169921875,
0.010498046875,
0.002899169921875,
0.064453125,
0.08544921875,
-0.00982666015625,
0.11181640625,
-0.0654296875,
0.10205... | 13,706,639 | 13706639 | |
Ackerman Steering Introduction
The ackerman steering is used in car-like vehicles. The basic idea consists of rotating the inner wheel slightly sharper than the outer wheel to reduce tire slippage.
With the track width \(w\) (the lateral wheel separation), the wheel base \(l\) (the longitudinal wheel separation), \(\p... | 4 | [
-0.072265625,
0.0247802734375,
-0.02294921875,
0.006103515625,
0.04541015625,
-0.04833984375,
0.00775146484375,
0.08935546875,
0.00096893310546875,
-0.0076904296875,
0.044189453125,
0.01239013671875,
0.03857421875,
-0.0228271484375,
-0.0546875,
0.099609375,
-0.064453125,
0.05444335... | 13,706,640 | 13706640 | |
Solve the system
-2x1+4x2+5x3=-22
-4x1+4x2-3x3=-28
4x1-4x2+3x3=30
a)the initial matrix is:
b)First, perform the Row Operation 1/-2R1->R1....
Solve the system -2x1+4x2+5x3=-22 -4x1+4x2-3x3=-28 4x1-4x2+3x3=30 a)the initial matrix is: b)First, perform the Row Operation 1/-2R1->R1....
Solve the system
-2x1+4x2+5x3=-22
-... | 4 | [
-0.049072265625,
-0.016845703125,
-0.06494140625,
-0.09912109375,
-0.0361328125,
-0.09326171875,
-0.0283203125,
0.0216064453125,
-0.0322265625,
0.0634765625,
0.0196533203125,
-0.0152587890625,
0.060546875,
-0.052001953125,
-0.0693359375,
0.0279541015625,
-0.087890625,
-0.0197753906... | 13,706,641 | 13706641 | |
None
There are some basic counting techniques which will be useful in determining the number through different ways of arranging or selecting objects. The basic counting principles are given below.
1. Addition principle
If there are two selections such that they can be done independently in m ways and n ways respecti... | 4 | [
0.01104736328125,
0.016357421875,
0.030517578125,
-0.0186767578125,
-0.03125,
0.047119140625,
0.0162353515625,
0.004730224609375,
0.006256103515625,
0.06787109375,
0.036376953125,
0.0257568359375,
0.06640625,
0.045166015625,
0.01611328125,
0.018310546875,
0.058837890625,
0.06591796... | 13,706,642 | 13706642 | |
The Bubble Factor and the Bubble Factor Table | ICMIZER Help Center
The display of bubble factors is a major feature of ICMIZER 3. Whenever you perform a Nash calculation you will see differently colored circles next to each opponent which will indicate their bubble
factor against you. The bigger the bubble factor, the... | 4 | [
0.0264892578125,
-0.111328125,
-0.07177734375,
-0.048828125,
0.0022125244140625,
-0.04248046875,
0.0634765625,
0.037109375,
0.01483154296875,
-0.057861328125,
-0.11572265625,
-0.04931640625,
-0.035888671875,
0.0244140625,
0.05810546875,
0.037841796875,
0.068359375,
-0.048095703125,... | 13,706,643 | 13706643 | |
Lecture 018
Existence of Limiting Distribution
Siturations when limiting distribution does not exists
\mathbb{P}^n = \begin{bmatrix} 1 & 0\\ 0 & 1\\ \end{bmatrix}
A chain of two states loop to itself with probability ... | 4 | [
-0.076171875,
-0.068359375,
-0.02294921875,
-0.01019287109375,
-0.00070953369140625,
-0.022216796875,
-0.028564453125,
-0.083984375,
0.09130859375,
-0.02880859375,
0.07470703125,
0.046142578125,
0.003875732421875,
0.0054931640625,
0.01031494140625,
-0.0546875,
-0.0247802734375,
-0.... | 13,706,644 | 13706644 | |
How do you write the quadratic equation of the graph with the given points (-3, 4), (1,0), and (-1,-2)? | Socratic
How do you write the quadratic equation of the graph with the given points (-3, 4), (1,0), and (-1,-2)?
1 Answer
Let's try this:
your quadratic should have the form: $y = a {x}^{2} + b x + c$ and we can ... | 4 | [
-0.03125,
-0.004547119140625,
-0.0517578125,
-0.053466796875,
-0.005767822265625,
0.07275390625,
0.0067138671875,
0.0791015625,
-0.0390625,
-0.02001953125,
0.03466796875,
-0.00836181640625,
0.044677734375,
0.0185546875,
-0.056396484375,
0.07080078125,
-0.006500244140625,
-0.0908203... | 13,706,645 | 13706645 | |
1969 AHSME Problems/Problem 20
Problem
Let $P$ equal the product of 3,659,893,456,789,325,678 and 342,973,489,379,256. The number of digits in $P$ is:
$\text{(A) } 36\quad \text{(B) } 35\quad \text{(C) } 34\quad \text{(D) } 33\quad \text{(E) } 32$
Solution 1
Through inspection, we see that the two digit number $33... | 4 | [
-0.050048828125,
0.0615234375,
-0.0033721923828125,
-0.0888671875,
-0.0020599365234375,
0.06005859375,
0.1259765625,
0.0673828125,
-0.07470703125,
0.025634765625,
-0.016845703125,
0.006683349609375,
0.0908203125,
-0.0240478515625,
-0.006134033203125,
-0.02587890625,
-0.09521484375,
... | 13,706,646 | 13706646 | |
combine -- combine hash tables
Description
The function
f
is applied to every pair
(p,q)
where
p
is a key of
x
and
q
is a key of
y
. The number of times
f
is evaluated is thus the product of the number of keys in
x
and the number of keys in
y
. The function
h
should be an associative function, for ... | 5 | [
0.004425048828125,
0.026123046875,
-0.046875,
-0.0869140625,
-0.057373046875,
0.0050048828125,
0.0556640625,
0.00579833984375,
0.01409912109375,
-0.009765625,
0.045654296875,
0.0252685546875,
0.1181640625,
0.024658203125,
-0.0002117156982421875,
0.1015625,
-0.1015625,
0.06689453125... | 13,706,647 | 13706647 | |
• Member
May 18, 2021 at 1:05 pm
Helpful
Up
1
Down
Not Helpful
::
Arithmetic Progression is a sequence of numbers in which the difference of every two consecutive numbers is always the same and constant. It is denoted as AP.
For example, take the natural numbers 1, 2, 3, ... | 4 | [
-0.068359375,
-0.003875732421875,
0.042236328125,
-0.1357421875,
-0.07080078125,
0.0322265625,
-0.052734375,
0.0191650390625,
-0.0015106201171875,
0.004364013671875,
0.00787353515625,
0.0177001953125,
0.04638671875,
-0.0159912109375,
-0.0137939453125,
-0.022216796875,
-0.08203125,
... | 13,706,648 | 13706648 | |
herr strathmann
Together with Louis Ellam, Iain Murray, and Mark Girolami, we just published / arXived a new article on dealing with large Gaussian models. This is slightly related to the open problem around the
GMRF model in our Russian Roulette paper back a while ago.
We propose a determinant-free approach for s... | 4 | [
-0.03759765625,
-0.14453125,
-0.003204345703125,
-0.000888824462890625,
0.0537109375,
-0.08154296875,
0.0111083984375,
-0.030517578125,
0.01251220703125,
-0.01165771484375,
0.029052734375,
0.09716796875,
0.007232666015625,
-0.01190185546875,
0.0018157958984375,
-0.078125,
0.047851562... | 13,706,649 | 13706649 | |
Using Determinants to Find the Missing Value in a 3 × 3 Matrix
Question Video: Using Determinants to Find the Missing Value in a 3 × 3 Matrix Mathematics • Third Year of Secondary School
What value can 𝑘 not take if the rank of the matrix 𝐴 = [7, 4, −15 and 22, 𝑘, −24 and −9, 15, −21] is 3?
Video Transcript
What ... | 4 | [
-0.04296875,
-0.04345703125,
-0.053466796875,
-0.0517578125,
0.052490234375,
0.01507568359375,
-0.002410888671875,
-0.043212890625,
0.02392578125,
0.0093994140625,
0.1591796875,
0.0003032684326171875,
0.0556640625,
0.052734375,
0.03076171875,
-0.036865234375,
-0.0673828125,
0.00421... | 13,706,650 | 13706650 | |
Orbit Determination
July/August 1995
By Dr. T.S. Kelso
July/August 1995
Orbit Determination
By Dr. T.S. Kelso
Up to now, we've talked about orbital models, sources of data, and some of the complexities involved with predicting the motion of artificial earth satellites. The goal here ... | 4 | [
-0.04833984375,
-0.0186767578125,
0.04931640625,
-0.01373291015625,
-0.0157470703125,
-0.09130859375,
-0.0218505859375,
0.029296875,
0.0390625,
0.06494140625,
-0.04931640625,
0.0242919921875,
0.005279541015625,
-0.1162109375,
-0.06640625,
-0.09326171875,
0.003692626953125,
0.018310... | 13,706,651 | 13706651 | |
We show students that this simply indicates how far away a value is from zero. It does not matter if the value is negative or positive, the numbers line shows that it just is an expression of how far
to the left or right that we move.
These are simply fractions that have some form of variable either in the numerator ... | 4 | [
-0.06005859375,
0.0751953125,
-0.04443359375,
0.00469970703125,
-0.064453125,
-0.03662109375,
-0.03662109375,
-0.028564453125,
0.146484375,
0.052001953125,
0.06396484375,
-0.01611328125,
0.0294189453125,
0.0634765625,
-0.025390625,
-0.01177978515625,
-0.0712890625,
0.035888671875,
... | 13,706,652 | 13706652 | |
Algebra 2 geometric sequence arithmetic sequence?
Let the original sequence three numbers are a, a + 3, and a + 6.
If the first number is increased by 1, the second increased by 6 , and the third by 19
So, the geometric sequence three numbers are a + 1, a + 9, and a + 25.
Above numbers following geometric sequence s... | 4 | [
-0.08837890625,
0.01806640625,
-0.00112152099609375,
-0.08056640625,
-0.0849609375,
-0.0162353515625,
-0.0262451171875,
0.042236328125,
0.040771484375,
-0.00127410888671875,
0.042724609375,
-0.0189208984375,
0.0167236328125,
0.027099609375,
-0.00946044921875,
-0.00677490234375,
-0.07... | 13,706,653 | 13706653 | |
Inverting the Mersenne Twister's Temper
The Cryptopals challenge can be tricky based on how you approach it. Wanting to get to the details of particular tasks can be a daunting task.
Challenge 23 is one of those challenges. It seems easy to implement at first, but when you get to actual details, it’s not so easy. Espe... | 4 | [
-0.1171875,
0.0283203125,
0.013916015625,
0.04296875,
0.0751953125,
-0.08251953125,
-0.039794921875,
-0.01129150390625,
-0.09912109375,
-0.02294921875,
-0.021484375,
-0.068359375,
0.048583984375,
-0.06689453125,
0.049560546875,
0.04248046875,
-0.1357421875,
0.0380859375,
-0.00059... | 13,706,654 | 13706654 | |
I was up at 3:30 AM today, so I decided to create a Christmas graph for all of my friends. This graph is made up of several inequalities combined with ∩ (intersection) and ∪ (union), and I hope
you'll stick with me to the end to see what it looks like. Are you ready?
Let B be the equation: y^2 + 0.5y ≤ 0; {-0.5 ≤ x... | 4 | [
0.00323486328125,
0.09375,
0.0084228515625,
-0.0162353515625,
-0.0103759765625,
0.01458740234375,
0.00714111328125,
0.0673828125,
0.0036773681640625,
0.01116943359375,
-0.033447265625,
-0.07763671875,
0.03564453125,
0.05859375,
0.03955078125,
0.061767578125,
-0.10107421875,
-0.0986... | 13,706,655 | 13706655 | |
A Note on Self-Accelerating Olver and Olver-Gauss Beams
Optics and Photonics Journal Vol.09 No.01(2019), Article ID:89964,7 pages
10.4236/opj.2019.91001
A Note on Self-Accelerating Olver and Olver-Gauss Beams
Ioannis M. Besieris^1*, Amr M. Shaarawi^2, Bradley Davis^3^
^1The Bradley Department of Electrical and Compu... | 4 | [
-0.031494140625,
-0.008544921875,
0.0322265625,
0.0888671875,
-0.01165771484375,
-0.1357421875,
-0.0162353515625,
-0.033203125,
-0.01025390625,
-0.003509521484375,
0.072265625,
0.08544921875,
-0.01519775390625,
-0.09033203125,
-0.0693359375,
0.032470703125,
0.06298828125,
-0.039794... | 13,706,656 | 13706656 | |
Completing The Square Calculator
A Worked example to illustrate how the complete square calculator Works:
This calculator will solve second order polynomials using the completing square method. The completing square method is a classical technique of finding the roots of quadratic equations. A quadratic
equation of th... | 4 | [
-0.048828125,
0.051513671875,
0.0078125,
0.06787109375,
-0.091796875,
-0.0272216796875,
-0.1552734375,
0.03076171875,
0.039794921875,
0.025634765625,
0.0888671875,
0.006927490234375,
0.02392578125,
0.0439453125,
-0.02001953125,
-0.0205078125,
-0.10546875,
0.031494140625,
-0.00576... | 13,706,657 | 13706657 | |
Sag Calculation in Overhead Line
Hüseyin GÜZEL
Calculation of Sag:
The sag & tension of conductor may be calculated in the following condition:
• a) When the supports are at equal levels.
• b) When the supports are at unequal levels.
i) Sag calculation when supports are at equal levels:
A conductor is in the ... | 4 | [
-0.0830078125,
0.0107421875,
0.01129150390625,
0.04736328125,
0.045166015625,
0.0634765625,
0.054931640625,
0.12890625,
-0.0390625,
-0.0264892578125,
0.00848388671875,
0.0203857421875,
0.08935546875,
-0.03662109375,
-0.0615234375,
0.0361328125,
-0.035888671875,
0.007080078125,
-0... | 13,706,658 | 13706658 | |
GMAT Section 2 Best Training Material and Practice Test Q&A from CertLibrary.com
A Cuban cigar would cost 1 dollar less than 1.5 times a French cigar, had the French cigar cost 0.7 dollar less than it does now. An Arabian cigar costs 50 cents more than 1.5 times the Cuban cigar.
The three cigars together cost 74.7 d... | 4 | [
0.01470947265625,
0.1201171875,
0.0830078125,
0.04443359375,
-0.047119140625,
-0.0150146484375,
0.031982421875,
0.0279541015625,
0.056640625,
0.064453125,
0.03955078125,
-0.0654296875,
0.08984375,
0.040283203125,
0.0257568359375,
-0.03662109375,
-0.05517578125,
-0.0030059814453125,... | 13,706,659 | 13706659 | |
f08bsf (zgeqpf)
NAG FL Interface
f08bsf (zgeqpf)
FL Name Style:
FL Specification Language:
1 Purpose
f08bsf
computes the
$QR$
factorization, with column pivoting, of a complex
$m×n$
matrix.
f08bsf
is marked as
deprecated
by LAPACK; the replacement routine is
f08btf
which makes better use of Level 3 B... | 4 | [
-0.06640625,
-0.00958251953125,
-0.11865234375,
0.0035858154296875,
-0.00732421875,
0.0281982421875,
-0.03662109375,
0.03515625,
-0.06884765625,
-0.02587890625,
0.006744384765625,
-0.031005859375,
0.0654296875,
0.0439453125,
-0.0250244140625,
0.0034027099609375,
-0.045166015625,
-0... | 13,706,660 | 13706660 | |
How Hop Hops
Hop is a tool for automating decisions in production software stacks. These including things like routing, assignment, and pricing. Hop lets you encode your business rules and objectives in Go. You
then build them into into simple, atomic binaries that read and write JSON data, and ship them off to just ab... | 5 | [
-0.034912109375,
0.036865234375,
-0.05224609375,
-0.04443359375,
-0.0308837890625,
-0.05810546875,
0.03466796875,
0.033935546875,
-0.0322265625,
0.056396484375,
-0.057861328125,
0.039306640625,
0.042236328125,
-0.0191650390625,
0.06298828125,
0.03955078125,
0.01007080078125,
0.0037... | 13,706,661 | 13706661 | |
Projection operator (group theory) - Mono Mole
Projection operator (group theory)
A projection operator is used to construct a linear combination of a set of basis functions that spans an irreducible representation of a point group $G$.
Using eq55, we can write
$R_{\alpha}f_l^p=\sum_{k=1}^m\Gamma_p(\alpha)_{kl}f_k^p... | 5 | [
-0.0390625,
0.005615234375,
-0.0113525390625,
-0.0120849609375,
-0.01043701171875,
0.0712890625,
0.09716796875,
-0.004852294921875,
0.0228271484375,
0.035888671875,
-0.004425048828125,
0.04052734375,
-0.015625,
0.010009765625,
-0.040771484375,
0.0272216796875,
-0.0810546875,
0.0781... | 13,706,662 | 13706662 | |
Angles and Polygons
Back to: MATHEMATICS JSS 2
Welcome to JSS2 Third Term!
We are eager to have you join us in class!!
In today’s Mathematics class, We will be discussing Angles and Polygons. We hope you enjoy the class!
CONTENT: (i) Sum of interior angles of a polygon
(ii) Sum of exterior ... | 4 | [
-0.0137939453125,
0.00787353515625,
0.0296630859375,
-0.00162506103515625,
-0.068359375,
-0.0299072265625,
-0.00665283203125,
-0.007415771484375,
0.021240234375,
0.05615234375,
-0.039794921875,
-0.028564453125,
-0.0167236328125,
0.03857421875,
0.06298828125,
-0.07763671875,
-0.016723... | 13,706,663 | 13706663 | |
Calculating
Currently, there are 8 functions associated with the calculate verb in the sgsR package:
calculate_representation() Determine representation of strata in existing sample unit
calculate_distance() Per pixel distance to closest access vector
calculate_pcomp() ... | 5 | [
-0.0050048828125,
-0.02197265625,
-0.10400390625,
-0.033203125,
-0.0296630859375,
-0.0281982421875,
-0.10400390625,
0.0888671875,
-0.0849609375,
0.034912109375,
0.0262451171875,
-0.07373046875,
0.0026092529296875,
-0.042724609375,
-0.044677734375,
-0.02734375,
-0.005126953125,
0.06... | 13,706,664 | 13706664 | |
Integrate (2x)/(4-3x-x^2) dx
Understand the Problem
The question is asking to compute the integral of the function (2x)/(4-3x-x^2) with respect to x. This involves finding an antiderivative or the area under the curve represented by the function.
Answer
$$ I = -\frac{2}{5} \ln |x - 1| - \frac{8}{5} \ln |x + 4| ... | 5 | [
0.03759765625,
-0.050537109375,
0.0810546875,
-0.061279296875,
0.04736328125,
-0.06494140625,
-0.0439453125,
0.06494140625,
0.0096435546875,
-0.0021820068359375,
0.072265625,
-0.060546875,
0.021240234375,
0.01458740234375,
-0.0673828125,
0.056396484375,
0.00787353515625,
-0.0703125... | 13,706,665 | 13706665 | |
Least Common Denominator Calculator
LCD calculator finds the least common denominator of fractions, non-fraction, and mixed numbers quickly, with detailed steps. This LCD finder makes calculation easy by calculating the LCM of the
denominators of all fractions.
What is the Least Common Denominator (LCD)?
The Least C... | 4 | [
-0.004425048828125,
0.03271484375,
-0.0439453125,
-0.0849609375,
0.005584716796875,
-0.04248046875,
-0.055908203125,
0.06494140625,
0.00125885009765625,
-0.005035400390625,
0.0255126953125,
-0.0439453125,
0.06494140625,
0.087890625,
-0.039794921875,
-0.047119140625,
-0.017333984375,
... | 13,706,666 | 13706666 | |
How to Sum the N Largest Values in a Range in ExcelHow to Sum the N Largest Values in a Range in Excel
How to Sum the N Largest Values in a Range in Excel
In this article, we will learn How to Sum the N Largest Values in a Range in Excel.
Scenario:
In simple words, while working with data numbers, sometimes given a ... | 4 | [
-0.005767822265625,
0.0184326171875,
0.03125,
-0.119140625,
-0.03759765625,
0.0169677734375,
-0.0146484375,
0.039306640625,
-0.0255126953125,
0.016845703125,
-0.12060546875,
0.02001953125,
-0.03369140625,
0.0206298828125,
0.03173828125,
0.09423828125,
0.061279296875,
0.024536132812... | 13,706,667 | 13706667 | |
CGPA Calculator - How to Convert CGPA to Percentage?
Colleges and universities worldwide utilize various grading systems. For instance, in India, students receive a percentage determining their division. In contrast, the United States uses a 4-point
GPA (Grade Point Average) system, while Europe employs a 10-point CGPA... | 4 | [
-0.033935546875,
-0.0279541015625,
-0.0634765625,
-0.0546875,
-0.07568359375,
0.03466796875,
-0.048583984375,
0.09912109375,
0.08349609375,
0.0181884765625,
-0.0078125,
-0.0810546875,
-0.001220703125,
0.0791015625,
-0.0233154296875,
-0.036865234375,
-0.0037384033203125,
0.016723632... | 13,706,668 | 13706668 | |
Time Area Method Detention Pond Benchmark MSMA 2nd Appendix 2.F2 - MES Innovation Sdn BhdTime Area Method Detention Pond Benchmark MSMA 2nd Appendix 2.F2 - MES Innovation Sdn BhdTime Area Method Detention Pond Benchmark MSMA 2nd Appendix 2.F2
Introduction #
There are two basic methods to computing detention pond flow,... | 4 | [
0.0595703125,
0.024658203125,
0.03173828125,
-0.0400390625,
0.04541015625,
-0.0673828125,
-0.04541015625,
0.07861328125,
-0.011962890625,
0.0308837890625,
-0.04931640625,
-0.05859375,
-0.01019287109375,
0.06640625,
-0.0751953125,
0.061767578125,
-0.045654296875,
-0.07421875,
0.00... | 13,706,669 | 13706669 | |
CSULB - Comprehensive Exam Preparation - Fall 2018 - Cộng Đồng Người Việt Nam California | VietSocal
CSULB – Comprehensive Exam Preparation – Fall 2018
Real Analysis – CSULB
1. Fall 2018 Choose six of the nine problems. On the first page of your work, please write the numbers of the problems that you want to be grade... | 5 | [
0.01007080078125,
0.0089111328125,
-0.004791259765625,
-0.07861328125,
0.126953125,
0.0791015625,
0.10986328125,
0.048828125,
-0.046630859375,
0.031005859375,
-0.0400390625,
0.00689697265625,
0.05517578125,
0.01202392578125,
0.01422119140625,
-0.1064453125,
-0.008056640625,
-0.0756... | 13,706,670 | 13706670 | |
How do you distribute 13x(3y + z)? + Example
How do you distribute #13x(3y + z)#?
1 Answer
For this property, I'm going to start with the definition and, then, do an example after.
The Distributive Property:
$a \left(b + c\right) = a b + a c$ ---- (i)
Where $a$, $b$ and $c$ are any real numbers.
First, let me rem... | 4 | [
-0.12890625,
0.031982421875,
-0.05908203125,
-0.0223388671875,
-0.07763671875,
0.01361083984375,
0.059814453125,
-0.07373046875,
-0.02294921875,
0.003570556640625,
0.09619140625,
-0.0439453125,
0.0869140625,
0.044189453125,
-0.006866455078125,
0.0201416015625,
-0.1044921875,
0.0888... | 13,706,671 | 13706671 | |
Research on Multiple AUVs Task Allocation with Energy Constraints in Underwater Search Environment
^1
University of Chinese Academy of Sciences, Beijing 100049, China
^2
State Key Laboratory of Robotics, Shenyang Institute of Automation, Chinese Academy of Sciences, Shenyang 110016, China
^3
Key Laboratory of Mar... | 4 | [
0.0220947265625,
-0.001556396484375,
-0.0289306640625,
0.021728515625,
0.0289306640625,
-0.099609375,
-0.03515625,
-0.06689453125,
-0.041748046875,
0.06884765625,
-0.056396484375,
-0.06396484375,
0.026611328125,
0.050537109375,
-0.0137939453125,
0.0908203125,
0.0191650390625,
0.003... | 13,706,672 | 13706672 | |
Backfiring Effect of Uncertain Trade Policy
Modern Economy Vol.07 No.05(2016), Article ID:66532,6 pages
10.4236/me.2016.75067
Backfiring Effect of Uncertain Trade Policy
Yasunori Fujita
Keio University, Tokyo, Japan
Copyright © 2016 by author and Scientific Research Publishing Inc.
This work is licensed under the ... | 4 | [
0.006317138671875,
-0.07177734375,
-0.0166015625,
0.03271484375,
0.031982421875,
0.004638671875,
-0.01251220703125,
0.034423828125,
0.0252685546875,
-0.00506591796875,
0.00160980224609375,
0.06689453125,
0.00457763671875,
-0.039306640625,
-0.0634765625,
0.00830078125,
-0.03369140625,... | 13,706,673 | 13706673 | |
Physics - Online Tutor, Practice Problems & Exam Prep
Hey, guys. So throughout your problems, you may be asked to calculate something called the Mean Free Path. In this video, I want to show you what the mean free path is conceptually, the equations for
it, and we'll do a quick example together. Let's check this out. I... | 5 | [
0.017822265625,
-0.0576171875,
0.004669189453125,
0.0380859375,
0.0279541015625,
-0.01025390625,
-0.01519775390625,
0.056396484375,
0.06982421875,
-0.027587890625,
0.00848388671875,
0.033203125,
-0.0062255859375,
-0.01025390625,
-0.07275390625,
-0.04443359375,
-0.0034942626953125,
... | 13,706,674 | 13706674 | |
Study of a Control Algorithm with the Disturbance of Massive Discharge on an Open Channel
^1
School of Civil Engineering, Hefei University of Technology, Hefei 230009, China
^2
School of Resource and Environmental Engineering, Hefei University of Technology, Hefei 230009, China
^3
School of Resources and Environm... | 4 | [
-0.03466796875,
0.06298828125,
-0.00121307373046875,
0.015869140625,
-0.044921875,
-0.07666015625,
-0.03515625,
0.039306640625,
-0.027587890625,
0.0234375,
-0.06640625,
-0.0272216796875,
0.076171875,
-0.01141357421875,
-0.1240234375,
0.027587890625,
-0.09716796875,
-0.0458984375,
... | 13,706,675 | 13706675 | |
7.4 Energy in Electromagnetic Waves
Learning Objectives
Learning Objectives
By the end of this section, you will be able to do the following:
• Explain how the energy and amplitude of an electromagnetic wave are related
• Given its power output and the heating area, calculate the intensity of a microwave oven’s ... | 5 | [
0.00604248046875,
0.064453125,
-0.033447265625,
0.013671875,
-0.01519775390625,
-0.06396484375,
0.06396484375,
0.01129150390625,
-0.029296875,
0.045166015625,
-0.00994873046875,
-0.06396484375,
0.0322265625,
0.0078125,
0.04541015625,
-0.041259765625,
0.05029296875,
-0.048828125,
... | 13,706,676 | 13706676 | |
Introduction
The cavitron technique has been used for many years to measure vulnerability curves (VCs) of woody stems (Cochard 2002, Cochard, Damour et al. 2005). VCs have been widely viewed as a good measure of
the drought resistance of woody plants (Cochard et al. 2013). Increasing drought will induce cavitation of... | 4 | [
-0.01336669921875,
-0.044677734375,
0.02490234375,
0.008056640625,
0.0791015625,
-0.08203125,
-0.001800537109375,
0.044189453125,
0.015869140625,
0.029541015625,
-0.042724609375,
-0.072265625,
0.0244140625,
0.02392578125,
-0.052490234375,
-0.0218505859375,
-0.12158203125,
-0.026000... | 13,706,677 | 13706677 | |
<h2>Wahl & Ammann proxy calculations</h2>
I had been quietly plodding through
Wahl and Ammann 2007
. This is the paper that re-did the MBH98/99 proxy calculations using conventionally centred principal components analysis and a modified number of PC's. It's relevant to recent discussions of the
Wegman report.
Some o... | 4 | [
-0.0859375,
-0.00099945068359375,
-0.01123046875,
-0.010498046875,
-0.058837890625,
-0.0208740234375,
-0.0439453125,
0.03466796875,
-0.0791015625,
0.00946044921875,
0.0157470703125,
0.0830078125,
-0.038818359375,
-0.05126953125,
0.0108642578125,
0.0791015625,
0.049560546875,
0.0134... | 13,706,678 | 13706678 | |
Optimal Control for Time-Delay Bilinear Systems with Sinusoidal Disturbances
Optimal Control for Time-Delay Bilinear Systems with Sinusoidal Disturbances ()
1. Introduction
Bilinear system is a class of systems that is derived by introducing the interactive product term of the state variable and the control variable ... | 4 | [
-0.0791015625,
-0.00531005859375,
-0.04541015625,
-0.041259765625,
-0.0927734375,
0.053466796875,
-0.004241943359375,
0.0703125,
0.021240234375,
-0.01324462890625,
0.05078125,
0.072265625,
0.0654296875,
-0.05712890625,
-0.1025390625,
0.126953125,
0.005828857421875,
-0.0062561035156... | 13,706,679 | 13706679 | |
Exponent | Definition & Meaning
Exponent|Definition & Meaning
We sometimes read numbers in words such as hundred, thousands, up to crores, and so on. What happens if a number has more digits than we can read? For example, 5972190000000000000000000 kg is the
mass of Earth. This number cannot be read in simple words. Th... | 4 | [
0.006591796875,
-0.052001953125,
-0.10986328125,
0.033935546875,
-0.051513671875,
-0.06982421875,
0.047607421875,
0.031494140625,
0.078125,
0.0162353515625,
-0.043212890625,
0.01953125,
0.005126953125,
0.05224609375,
0.0277099609375,
0.035400390625,
-0.09521484375,
0.041259765625,
... | 13,706,680 | 13706680 | |
Calculating Stockpile Capacity - 911Metallurgist
Calculating Stockpile Capacity: Once the minimum storage capacities which will assure maximum mill output are known, the appropriate stockpile configuration must be determined. Stockpiles fall into
two general categories: conical and elongated.
Conical Stockpiles
The c... | 4 | [
-0.048095703125,
-0.01348876953125,
-0.0250244140625,
0.007781982421875,
-0.0673828125,
-0.041015625,
-0.07958984375,
0.1015625,
-0.07763671875,
0.0220947265625,
-0.038818359375,
-0.04638671875,
0.018798828125,
0.02685546875,
-0.047607421875,
-0.01025390625,
0.0223388671875,
0.0189... | 13,706,681 | 13706681 | |
Recursion
Recursion is a special case of reduction.
• A special case of reduction
• Reduce problem to a smaller instance of itself
• Self-reduction
• Problem instance of size n is reduced to one or more instances of size n 1 or less.
• For termination, problem instances of small size are solved by some oth... | 5 | [
-0.00689697265625,
0.076171875,
0.033447265625,
-0.05078125,
-0.04736328125,
-0.11328125,
-0.058837890625,
0.07861328125,
0.01312255859375,
0.06689453125,
-0.09228515625,
0.01806640625,
0.03125,
0.04150390625,
-0.02587890625,
0.005523681640625,
0.004974365234375,
0.039306640625,
... | 13,706,682 | 13706682 | |
Half-Earth
Half-Earth Hypothesis
This page presents the mathematical reasoning behind the "Half-Earth Hypothesis," which is based on work done on version 4 of the Population-Consumption model.
Some definitions are illustrated in ... | 4 | [
0.06494140625,
0.05712890625,
0.08642578125,
0.09130859375,
0.11083984375,
-0.041015625,
-0.02685546875,
0.11328125,
-0.0245361328125,
0.0380859375,
0.009765625,
-0.06640625,
0.0002574920654296875,
0.035888671875,
0.035888671875,
-0.05078125,
-0.029296875,
-0.06884765625,
-0.0498... | 13,706,683 | 13706683 | |
Think Of Two Numbers Poster
Think Of Two Numbers Poster
Problem
The poster is available as a
PDF
, or the image below can be clicked on to enlarge it.
Student Solutions
I subtract 9 from your answer, and the digits of the number that I'm left with, are your two numbers.
For example, if your final answer is 7... | 4 | [
-0.061767578125,
0.044677734375,
-0.061767578125,
-0.078125,
0.0250244140625,
0.050537109375,
0.01251220703125,
-0.02978515625,
-0.064453125,
0.029541015625,
0.01202392578125,
0.050537109375,
0.04345703125,
0.016357421875,
-0.0478515625,
-0.006591796875,
-0.1416015625,
0.0456542968... | 13,706,684 | 13706684 | |
C1: Compress Interactive Communication (1)
Reminder: This post contains 3163 words · 10 min read · by Xianbin
It’s much more important today to be able to become an expert in a brand-new field in nine to twelve months than to have studied the right thing a long time ago. — Eric Jorgenson.
This post is based on [... | 5 | [
-0.0184326171875,
0.037841796875,
-0.005950927734375,
-0.05126953125,
0.00019741058349609375,
-0.00665283203125,
0.140625,
-0.08251953125,
0.01190185546875,
0.001983642578125,
-0.07177734375,
-0.021240234375,
0.09765625,
-0.0498046875,
0.0478515625,
0.050537109375,
0.10546875,
-0.0... | 13,706,685 | 13706685 | |
Determining the Densities of Liquids in a Liquid Column Manometer
Question Video: Determining the Densities of Liquids in a Liquid Column Manometer Physics • Second Year of Secondary School
From the given figure, calculate the ratio between the density of liquid B and the density of liquid A.
Video Transcript
From t... | 4 | [
-0.01300048828125,
-0.0018310546875,
-0.11279296875,
-0.1162109375,
-0.004119873046875,
0.0230712890625,
0.001922607421875,
0.01068115234375,
0.01177978515625,
-0.07080078125,
0.036376953125,
-0.083984375,
0.040283203125,
0.087890625,
-0.03759765625,
-0.05322265625,
-0.064453125,
-... | 13,706,686 | 13706686 | |
Unlocking the God Power Equation: A Comprehensive Guide
Written on
Chapter 1: Introduction to the God Power Equation
Are you ready to delve into the complete God Power Equation? Here it is laid out clearly:
P = (γ * m * v * c²) / (t * √(c² + γ² * v²))
To validate this equation, I had a session with ChatGPT. Here’s... | 5 | [
-0.052490234375,
0.1435546875,
0.06640625,
0.103515625,
-0.004852294921875,
0.07421875,
0.04541015625,
0.062255859375,
0.037353515625,
0.054931640625,
0.0712890625,
-0.048828125,
0.00592041015625,
0.055419921875,
0.0198974609375,
0.032470703125,
-0.0830078125,
0.05224609375,
-0.0... | 13,706,687 | 13706687 | |
VTU Basic Thermodynamics - January 2013 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
1 (a) Define the following examples:
(i) Open system
(ii) ... | 4 | [
-0.06884765625,
0.0361328125,
-0.00408935546875,
-0.0281982421875,
0.01324462890625,
-0.00872802734375,
0.041259765625,
0.046875,
0.07861328125,
0.048583984375,
0.0213623046875,
-0.1162109375,
0.044189453125,
-0.0306396484375,
0.0556640625,
0.006439208984375,
-0.0283203125,
-0.0903... | 13,706,688 | 13706688 | |
Maharashtra Board 11th Maths Solutions Chapter 2 Sequences and Series Ex 2.4
Balbharti Maharashtra State Board 11th Maths Book Solutions Pdf Chapter 2 Sequences and Series Ex 2.4 Questions and Answers.
Maharashtra State Board 11th Maths Solutions Chapter 2 Sequences and Series Ex 2.4
Question 1.
Verify whether the ... | 4 | [
-0.173828125,
-0.0159912109375,
0.033447265625,
-0.0556640625,
-0.01165771484375,
0.0159912109375,
0.045654296875,
-0.03662109375,
-0.0186767578125,
-0.050048828125,
-0.0233154296875,
-0.0908203125,
-0.039306640625,
-0.00170135498046875,
-0.1083984375,
-0.09521484375,
-0.010498046875... | 13,706,689 | 13706689 | |
Build Neural Network From Scratch
Prerequisites
I wrote tinyml for learning purpose, and I found it is useful and interesting to figure out what is a deep learning framework doing under their apis. I hope this project can be useful for other
students to understand how deep learning works.
In tinyml, we focus on thre... | 4 | [
-0.08349609375,
-0.035400390625,
0.050048828125,
0.00946044921875,
0.0135498046875,
-0.01544189453125,
-0.044921875,
0.0062255859375,
-0.0439453125,
-0.061767578125,
0.0003566741943359375,
-0.06201171875,
-0.0233154296875,
0.024169921875,
-0.115234375,
0.021240234375,
0.041748046875,... | 13,706,690 | 13706690 | |
How on Mathematica would you use the Gaussian elimination for say below
0
|
9087 Views
|
2 Replies
|
2 Total Likes
How on Mathematica would you use the Gaussian elimination for say below
Anonymous User
Posted 10 years ago
Using gaussian elimination to find inverse
({
{1, 7, 5, 0},
{5, 8, 6, 9},
{2, 1, ... | 5 | [
-0.034912109375,
-0.040283203125,
0.020751953125,
-0.00799560546875,
0.0419921875,
-0.027099609375,
0.036865234375,
-0.034912109375,
-0.0673828125,
-0.0191650390625,
0.051513671875,
0.00860595703125,
0.09228515625,
-0.0693359375,
-0.1318359375,
0.0634765625,
-0.01092529296875,
-0.0... | 13,706,691 | 13706691 | |
Dormand-Prince 4(5)
Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
See the recommended documentation of this function
Scilabヘルプ >> Xcos > Solvers > Dormand-Prince 4(5)
Dormand-Prince 4(5)
Dormand-Prince is a numerical solver providing an efficient explicit method to solv... | 5 | [
-0.1015625,
0.01251220703125,
0.02734375,
-0.0191650390625,
0.037109375,
-0.08447265625,
-0.1474609375,
0.07080078125,
-0.0693359375,
0.0050048828125,
0.049072265625,
0.003662109375,
0.00811767578125,
-0.036376953125,
-0.054443359375,
-0.005645751953125,
-0.0390625,
0.01904296875,
... | 13,706,692 | 13706692 | |
barnard_exact
scipy.stats.
barnard_exact#
scipy.stats.barnard_exact(table, alternative='two-sided', pooled=True, n=32)[source]#
Perform a Barnard exact test on a 2x2 contingency table.
Parameters:
tablearray_like of ints
A 2x2 contingency table. Elements should be non-negative integers... | 5 | [
0.0274658203125,
0.01055908203125,
0.034423828125,
0.03564453125,
-0.01025390625,
-0.05615234375,
-0.0220947265625,
0.07177734375,
-0.05078125,
0.0673828125,
-0.034423828125,
-0.10693359375,
0.0277099609375,
0.0089111328125,
-0.0115966796875,
0.0137939453125,
0.00122833251953125,
-... | 13,706,693 | 13706693 | |
GreeneMath.com | Ace your next Math Test!
Lesson Objectives
• Learn how to solve equations using the Addition Property of Equality
• Learn how to solve equations using the Multiplication Property of Equality
• Learn how to solve any linear equation in one variable using the four-step Method
How to Solve a Linea... | 4 | [
-0.0986328125,
0.023681640625,
0.0081787109375,
0.0908203125,
-0.0242919921875,
-0.021484375,
0.044677734375,
0.028076171875,
-0.01190185546875,
0.06884765625,
0.1171875,
-0.043212890625,
0.04296875,
0.040771484375,
-0.029541015625,
-0.047607421875,
-0.09765625,
0.08642578125,
-0... | 13,706,694 | 13706694 | |
Block-wise Granger causality
gctest
Block-wise Granger causality and block exogeneity tests
Description
The gctest function conducts a block-wise Granger causality test by accepting sets of time series data representing the "cause" and "effect" multivariate response variables in the test. gctest
supports the inclu... | 5 | [
-0.0791015625,
-0.060302734375,
0.024658203125,
0.036376953125,
0.0654296875,
-0.0277099609375,
-0.054931640625,
-0.032470703125,
-0.03466796875,
-0.02490234375,
-0.0118408203125,
0.07568359375,
-0.05078125,
-0.00164794921875,
-0.03466796875,
-0.06298828125,
0.03466796875,
-0.08105... | 13,706,695 | 13706695 | |
Plasma Prime spec?
Other than @vbuterin’s posts on RSA Accumulators, there seems to be no online resources describing the latest Plasma Prime flavour, not on ethresear.ch or anywhere really.
Is there a spec around that I am not aware of? If not, I assume that someone is working on the spec. In that case, how soon will ... | 4 | [
-0.10888671875,
0.0035247802734375,
-0.0162353515625,
0.0167236328125,
0.008056640625,
-0.01708984375,
-0.05078125,
0.11572265625,
-0.02294921875,
-0.005859375,
-0.0625,
-0.05322265625,
-0.030517578125,
-0.06982421875,
-0.0189208984375,
-0.00958251953125,
0.05810546875,
-0.08251953... | 13,706,696 | 13706696 | |
Addition of Single variable Polynomial : Program and Algorithm - Quescol
Addition of Single variable Polynomial : Program and Algorithm
The addition of single-variable polynomials is a fundamental concept in algebra, often encountered in mathematics and computer science. Let’s break down this process into easy-to-unde... | 4 | [
0.00101470947265625,
0.009033203125,
-0.0224609375,
0.0439453125,
-0.00213623046875,
-0.043212890625,
0.017578125,
-0.06689453125,
-0.00653076171875,
0.021728515625,
0.004302978515625,
-0.0201416015625,
0.060302734375,
0.0113525390625,
0.027099609375,
0.08837890625,
-0.1396484375,
... | 13,706,697 | 13706697 | |
to
SGPA to Percentage
Quickly Convert Your SGPA to Percentage for Clear Results!
SGPA to Percentage Calculator
Converting SGPA to a percentage is often necessary for various applications, and this is where our SGPA to percentage calculator becomes invaluable. This specially designed tool simplifies
conversion, pro... | 4 | [
-0.00738525390625,
-0.0023651123046875,
-0.055908203125,
0.00081634521484375,
-0.030029296875,
0.03466796875,
-0.05517578125,
0.06982421875,
-0.01220703125,
-0.004974365234375,
0.043701171875,
-0.0732421875,
-0.00084686279296875,
0.0286865234375,
0.007049560546875,
-0.05322265625,
0.... | 13,706,698 | 13706698 | |
Sum of n Natural Numbers and Their Cubes
Know About Sum of n Natural Numbers and Their Cubes
Mathematics is full of patterns. An example of such a pattern is the sum of cubes of n natural numbers. There is also different patterns involved in the Basic Set Theory. Numbers are exponentiated by
their cubes. Three cubes ... | 4 | [
0.005462646484375,
0.007110595703125,
-0.0162353515625,
0.05224609375,
-0.045654296875,
-0.0076904296875,
0.000518798828125,
-0.0264892578125,
0.0283203125,
-0.05615234375,
-0.1962890625,
-0.030517578125,
-0.03759765625,
-0.041015625,
0.0213623046875,
0.012939453125,
-0.0050048828125... | 13,706,699 | 13706699 |