content string | quality_label int64 | meta string | all-MiniLM-L6-v2_embedding list | doc_id int64 | unique_id string |
|---|---|---|---|---|---|
How to Calculate Fabric Consumption from Marker
by Engr. Kh. Mashiur Rahman | Dec 12, 2016 | Merchandising | 23 comments
Fabric Consumption
The quantity of fabric needed for making a garment is called fabric consumption for costing. It is difficult to know the actual consumption before completion of marker planning... | 4 | [
0.0341796875,
0.0255126953125,
-0.0260009765625,
0.0166015625,
0.01544189453125,
-0.00909423828125,
0.046142578125,
0.0869140625,
-0.033203125,
0.06591796875,
-0.00634765625,
-0.0255126953125,
0.035888671875,
0.05908203125,
0.008544921875,
0.028076171875,
0.0201416015625,
0.0280761... | 13,700,800 | 13700800 | |
Statistics Class 10th Mathematics Gujarat Board Solution
Class 10^th Mathematics Gujarat Board Solution
Exercise 15.1
Question 1.
Find the mean of the following frequency distribution:
Answer:
Since, this is a grouped frequency distribution, this is solved by creating a table and using certain formulae. To find... | 4 | [
-0.00933837890625,
0.06787109375,
-0.004058837890625,
-0.04541015625,
-0.0546875,
0.058837890625,
0.018798828125,
0.044189453125,
-0.0361328125,
0.055908203125,
0.08203125,
-0.055419921875,
0.11181640625,
-0.039794921875,
0.033447265625,
-0.044921875,
-0.054931640625,
-0.0698242187... | 13,700,801 | 13700801 | |
Chapter 7, part 2 of 6: examples of discretized assets — Implementing QuantLib
Chapter 7, part 2 of 6: examples of discretized assets
Hello everybody.
This week, the second part of a series on the QuantLib tree framework that started in the previous post. As usual, it’s taken from my book.
In case you missed it: we ... | 4 | [
-0.09521484375,
-0.00872802734375,
-0.01220703125,
-0.037109375,
-0.046630859375,
-0.033447265625,
-0.06689453125,
0.0269775390625,
0.053955078125,
0.03564453125,
0.0274658203125,
-0.04833984375,
-0.046142578125,
0.0546875,
0.0211181640625,
-0.0264892578125,
-0.0458984375,
0.032958... | 13,700,802 | 13700802 | |
ocumentation
A simple population model is fitted to abundance data to estimate the net reproductive rate for specified periods of time. The model is Nt=N0*R^t where Nt is the abundance at time t, N0 is the
estimated initial population size and R is the net reproductive rate. R can be used as an indication that the popu... | 4 | [
-0.056640625,
0.034423828125,
0.0030517578125,
0.054931640625,
0.01348876953125,
-0.0361328125,
-0.08349609375,
0.0247802734375,
-0.005035400390625,
0.01519775390625,
0.07763671875,
-0.111328125,
-0.011962890625,
0.027099609375,
0.035888671875,
0.00421142578125,
-0.048828125,
-0.03... | 13,700,803 | 13700803 | |
Grids · FourierFlows.jl
1D, 2D, and 3D grids are supported. We demonstrate here the construction of a one-dimensional grid and how one can use it to perform Fourier transforms and compute spatial derivatives.
A one-dimensional grid with $n_x = 64$ grid points and length $L_x = 2 \pi$ is constructed by
using FourierFl... | 5 | [
-0.080078125,
0.0286865234375,
-0.02978515625,
-0.0284423828125,
-0.003997802734375,
-0.08154296875,
-0.037109375,
0.018310546875,
0.05517578125,
-0.006378173828125,
-0.000385284423828125,
-0.042724609375,
-0.0189208984375,
-0.030029296875,
0.047607421875,
-0.08935546875,
-0.02954101... | 13,700,804 | 13700804 | |
more geometric series and sequences
#1
0
0
107
1
Fill in the blanks to make a true equation:
(the question marks are the blanks, and the two question marks don't have to be the same number)
\(\frac{1}{n(n + 3)} = \frac{?}{n} - \frac{?}{n + 3}.\)
youngwolf May 5, 2023
Let the constants be A and B, so 1/(n(n + 3... | 4 | [
-0.1474609375,
0.037109375,
-0.057373046875,
0.0174560546875,
-0.138671875,
0.032470703125,
0.006500244140625,
-0.06298828125,
0.009033203125,
-0.0052490234375,
-0.03125,
-0.1181640625,
0.028076171875,
0.056884765625,
0.017578125,
0.00848388671875,
-0.0830078125,
-0.04345703125,
... | 13,700,805 | 13700805 | |
Jerk: The Derivative of Acceleration in context of time to acceleration
30 Aug 2024
Journal of Physics and Mathematics
Volume 12, Issue 3, 2023
The Derivative of Acceleration: A Mathematical Exploration of Jerk
Abstract
In this article, we delve into the mathematical concept of jerk, which is defined as the deri... | 4 | [
-0.07470703125,
-0.005523681640625,
0.040283203125,
0.037109375,
-0.02880859375,
0.00982666015625,
-0.00323486328125,
0.045654296875,
0.087890625,
0.0439453125,
0.138671875,
0.00171661376953125,
0.043212890625,
0.052734375,
-0.04541015625,
-0.00323486328125,
-0.032958984375,
0.0878... | 13,700,806 | 13700806 | |
Power Series
Show Mobile Notice Show All Notes Hide All Notes
Mobile Notice
You appear to be on a device with a "narrow" screen width (i.e. you are probably on a mobile phone). Due to the nature of the mathematics on this site it is best views in landscape mode. If your
device is not in landscape mode many of the eq... | 5 | [
-0.162109375,
0.0380859375,
0.03857421875,
0.0673828125,
-0.00372314453125,
-0.02392578125,
-0.040283203125,
-0.028076171875,
0.10986328125,
-0.0033416748046875,
0.0220947265625,
0.05224609375,
0.0164794921875,
0.016845703125,
0.00347900390625,
0.0220947265625,
-0.060791015625,
-0.... | 13,700,807 | 13700807 | |
Mathematical Methods for Physicists
A Comprehensive Guide
• 7th Edition - December 26, 2011
• Authors: George B. Arfken, Hans J. Weber, Frank E. Harris
•
• Hardback ISBN:
9 7 8 - 0 - 1 2 - 3 8 4 6 5 4 - 9
• eBook ISBN:
9 7 8 - 0 - 1 2 - 3 8 4 6 5 5 - 6
Now in its 7th edition, Mathematical Met... | 4 | [
-0.1455078125,
-0.048583984375,
0.062255859375,
0.1123046875,
-0.08740234375,
0.03857421875,
-0.0032501220703125,
0.0654296875,
-0.0164794921875,
0.0017547607421875,
0.09326171875,
0.057861328125,
-0.0546875,
-0.0174560546875,
-0.0181884765625,
-0.01513671875,
-0.025146484375,
0.02... | 13,700,808 | 13700808 | |
Egg Dropping | Brilliant Math & Science Wiki
Egg dropping refers to a class of problems in which it is important to find the correct response without exceeding a (low) number of certain failure states. In a toy example, there is a tower of \(n
\) floors, and an egg dropper with \(m\) ideal eggs. The physical properties... | 5 | [
-0.0556640625,
0.03173828125,
0.0625,
0.0146484375,
-0.0269775390625,
-0.055908203125,
0.054443359375,
0.015380859375,
0.0081787109375,
0.0177001953125,
-0.0150146484375,
-0.03125,
-0.00787353515625,
-0.01287841796875,
-0.0174560546875,
0.01092529296875,
0.0257568359375,
0.03247070... | 13,700,809 | 13700809 | |
[This article was first published on
R – Aaron Schlegel
, and kindly contributed to
R-bloggers
]. (You can report issue about the content on this page
here
) Want to share your content on R-bloggers?
click here
if you have a blog, or
here
if you don't.
The term ‘discriminant analysis’ is often used intercha... | 4 | [
-0.0546875,
-0.076171875,
-0.056640625,
-0.0299072265625,
0.0184326171875,
0.09228515625,
0.0059814453125,
-0.035400390625,
-0.036376953125,
0.005126953125,
0.037109375,
0.035888671875,
-0.078125,
0.08203125,
-0.05029296875,
-0.030517578125,
0.039306640625,
0.00191497802734375,
-... | 13,700,810 | 13700810 | |
Advent of Code 2021 in pure TensorFlow - day 3
The day 3 challenge is very different from the easy challenges faced during day 1 and day 2. This time, we need to face a more difficult challenge and by doing so we’ll explore some useful, although
not widely used, TensorFlow features like tf.TensorArray.
Moreover, we’ll... | 5 | [
-0.054931640625,
0.03173828125,
-0.03857421875,
-0.00262451171875,
0.0216064453125,
-0.05517578125,
0.06494140625,
-0.0224609375,
-0.056884765625,
-0.054931640625,
0.00188446044921875,
-0.0291748046875,
-0.006134033203125,
0.04736328125,
-0.015380859375,
0.0595703125,
-0.044677734375... | 13,700,811 | 13700811 | |
Directed Sets
Directed Sets
Definition: A Directed Set is a pair $(X, \leq)$ where $X$ is a nonempty set and $\leq$ is a binary relation on $X$ that satisfies the following three properties:
1) $x \leq x$ for every $x \in X$ (Reflexivity).
2) If $x \leq y$ and $y \leq z$ then $x \leq z$ (Transitivity).
3) For all $x,... | 4 | [
0.04833984375,
-0.05908203125,
0.029052734375,
-0.06982421875,
0.00604248046875,
0.0145263671875,
-0.01422119140625,
0.00628662109375,
-0.0252685546875,
-0.004913330078125,
-0.07373046875,
0.06103515625,
0.07373046875,
0.00021839141845703125,
0.038330078125,
0.030029296875,
0.1040039... | 13,700,812 | 13700812 | |
Lecture Notes :-
Let us solve Numericals Explaining the range of the readings.
Q.1. Resistances R[1] and R[2] have respectively nominal values of 10Ω and 5 Ω and tolerances of ±5% and ±10%. The range of values for the parallel combination of R[1 ]and R[2] is [ Gate 2001]
a) 3.077 Ω to 3.636 Ω
b) 2.805 Ω to 3.371 Ω... | 4 | [
-0.03173828125,
0.04248046875,
-0.068359375,
-0.0002002716064453125,
-0.01251220703125,
0.00994873046875,
-0.054931640625,
0.125,
0.007659912109375,
-0.017822265625,
-0.0069580078125,
-0.12255859375,
0.05029296875,
0.005645751953125,
0.061279296875,
-0.005615234375,
-0.03857421875,
... | 13,700,813 | 13700813 | |
Fibonacci Day: Proof of Binet's Formula
I don’t know if you noticed, but today’s a Fibonacci day! It is January 21, and 21 is the eighth Fibonacci number.
Several months back, I presented the explicit formula for Fibonacci numbers; F[n] = (a^n – b^n)/(a – b), assuming the following:
a = 1 + √(5)/2
b = 1 – √(5)/2
... | 5 | [
-0.08056640625,
0.0908203125,
0.022705078125,
0.01129150390625,
-0.03271484375,
0.0169677734375,
-0.055419921875,
0.03857421875,
0.060791015625,
0.032958984375,
-0.064453125,
-0.0576171875,
-0.046875,
0.060791015625,
-0.03173828125,
0.005523681640625,
-0.1474609375,
-0.003784179687... | 13,700,814 | 13700814 | |
How do you differentiate f(x)=(x^4-1)(e^x-2) using the product rule? | Socratic
How do you differentiate #f(x)=(x^4-1)(e^x-2)# using the product rule?
1 Answer
You must apply the chain rule alongside some derivative results
$\frac{d \left({x}^{4} - 1\right) \left({e}^{x} - 2\right)}{\mathrm{dx}} = 4 {x}^{3} \left({e}... | 5 | [
0.0264892578125,
0.01953125,
0.06494140625,
-0.05859375,
-0.037353515625,
-0.0284423828125,
0.0225830078125,
0.033203125,
-0.01129150390625,
0.06640625,
0.055419921875,
-0.020263671875,
0.07275390625,
-0.0093994140625,
-0.02734375,
0.0098876953125,
-0.004791259765625,
0.01171875,
... | 13,700,815 | 13700815 | |
FAULT CONTROL BEAM TOMOGRAPHY REGULARIZATION METHOD AND APPARATUS, COMPUTER DEVICE, AND STORAGE MEDIUM
FAULT CONTROL BEAM TOMOGRAPHY REGULARIZATION METHOD AND APPARATUS, COMPUTER DEVICE, AND STORAGE MEDIUM
A fault control beam tomography regularization method and apparatus, a computer, and a storage medium are provi... | 4 | [
-0.0155029296875,
0.000370025634765625,
0.031982421875,
-0.01068115234375,
-0.042236328125,
-0.036865234375,
-0.06396484375,
0.059326171875,
-0.09228515625,
-0.00689697265625,
0.01611328125,
0.01458740234375,
0.0869140625,
-0.058837890625,
-0.10791015625,
-0.0419921875,
-0.064453125,... | 13,700,816 | 13700816 | |
Re: [Edu-sig] Algebra + Python
30 Apr 2001 30 Apr '01
4:56 p.m.
Kirby wrote:
There may be a better way to write the factory function than I've shown below. I'd like to see other solutions:
def makepoly(A,B,C): """ Build a polynomial function from coefficients """ return eval("lambda x: %s*x**2 +... | 5 | [
-0.15625,
-0.01007080078125,
-0.0927734375,
-0.0125732421875,
-0.1064453125,
-0.041015625,
0.030029296875,
-0.0037689208984375,
-0.1201171875,
-0.005645751953125,
-0.0181884765625,
-0.06884765625,
0.0458984375,
0.0069580078125,
0.05859375,
0.08349609375,
-0.0146484375,
0.029296875,... | 13,700,817 | 13700817 | |
One method to estimate the value of \(\pi\) is by applying the Monte Carlo method. Let’s consider a circle inscribed in a square. Then for a radius \(r\) we have:
Area of the Circle = \(\pi r^2\)
Are of the Square = \(4 r^2\)
Hence, we can say that \(\frac{AreaCircle}{AreaSquare}=Prob=\frac{\pi}{4}\). This implies ... | 4 | [
0.060302734375,
0.04052734375,
-0.035888671875,
0.01385498046875,
-0.01275634765625,
-0.06494140625,
0.048583984375,
0.08349609375,
0.0576171875,
-0.00958251953125,
-0.059326171875,
-0.0224609375,
0.0888671875,
0.0033416748046875,
0.0011444091796875,
-0.005523681640625,
0.04174804687... | 13,700,818 | 13700818 | |
Free NCERT Solutions Class 11 Maths PDF Download
NCERT Solutions Class 11 Math Free PDF Download
Looking out for NCERT Solutions Class 11 Maths then you better bookmark this page now. We at educationleaenacademy.com offer the most comprehensive, accurate and well explained solutions for all your
mathematics need. M... | 4 | [
-0.0791015625,
-0.0018768310546875,
0.03857421875,
-0.02197265625,
-0.033203125,
-0.023681640625,
0.0244140625,
0.06298828125,
-0.07177734375,
0.031982421875,
-0.0166015625,
-0.02294921875,
0.029296875,
0.04541015625,
-0.0223388671875,
-0.050048828125,
-0.060302734375,
0.0581054687... | 13,700,819 | 13700819 | |
Important Questions for Class 10 Maths Chapter 6 Triangles
Chapter 6 Triangles Important Questions for CBSE Class 10 Maths Board Exams
This page contains Important Questions for Class 10 Maths Chapter 6 Triangles, which will help the students to prepare for the CBSE Class 10 maths Board exam 2022-23. It help the doing... | 4 | [
-0.08349609375,
0.06982421875,
0.0032196044921875,
-0.047607421875,
-0.04150390625,
0.04345703125,
-0.00860595703125,
0.0791015625,
-0.059326171875,
0.022216796875,
-0.00872802734375,
-0.0888671875,
-0.054443359375,
0.00104522705078125,
0.0498046875,
-0.0419921875,
-0.062255859375,
... | 13,700,820 | 13700820 | |
Traveling Salesperson on Dirac
Device: Dirac-1
Introduction
The traveling salesperson problem is a longstanding example of the difficulty found in solving combinatorial problems. The typical problem statement is that a list of cities must all be visited, but
one can do so in any order. A list of distances between ci... | 4 | [
-0.044921875,
-0.0096435546875,
-0.022705078125,
-0.06982421875,
-0.076171875,
-0.0257568359375,
0.034912109375,
0.0205078125,
-0.052001953125,
0.056884765625,
0.053466796875,
0.05224609375,
0.035888671875,
0.0693359375,
-0.0299072265625,
0.0279541015625,
0.047119140625,
-0.0212402... | 13,700,821 | 13700821 | |
Updated July 27, 2023
Coverage Ratio Formula (Table of Contents)
Coverage Ratio Formula
A Coverage ratio is a group of measurement to find out the capability of a specific company to serve its debt and financial commitment such as interest payments and liabilities to pay back at a
particular time. High ratio value ... | 4 | [
0.025390625,
0.0174560546875,
-0.08837890625,
-0.032470703125,
0.05224609375,
0.01123046875,
0.00274658203125,
0.053466796875,
0.048828125,
-0.007232666015625,
-0.037841796875,
-0.005767822265625,
0.021240234375,
0.029541015625,
0.037353515625,
-0.080078125,
0.00665283203125,
-0.02... | 13,700,822 | 13700822 | |
Convert CGPA to percentage
Converting CGPA (Cumulative Grade Point Average) to percentage is a common requirement for students. Let’s break it down:
1. Understanding CGPA:
□ CGPA is a grading system used in educational institutions. It is calculated based on the average of the grade points obtained in various s... | 4 | [
0.006439208984375,
0.0252685546875,
-0.035888671875,
-0.041015625,
-0.037109375,
0.00775146484375,
-0.0106201171875,
0.1572265625,
0.0223388671875,
0.06982421875,
0.03759765625,
-0.1015625,
-0.001495361328125,
0.1083984375,
0.0205078125,
0.023193359375,
0.00185394287109375,
0.0625,... | 13,700,823 | 13700823 | |
Finding the Solution Set of a Quadratic Equation
Question Video: Finding the Solution Set of a Quadratic Equation Mathematics • First Year of Secondary School
Find the solution set of the equation (−𝑥² − 1)/(−2𝑥 − 6) = 1/5 in ℝ, giving values to one decimal place.
Video Transcript
Find the solution set of the equa... | 4 | [
-0.0888671875,
-0.017578125,
0.0830078125,
0.01361083984375,
-0.02392578125,
0.00347900390625,
-0.0218505859375,
0.01446533203125,
0.06591796875,
-0.0107421875,
0.0849609375,
-0.01422119140625,
0.0654296875,
0.08056640625,
-0.01300048828125,
0.052734375,
-0.061279296875,
-0.0306396... | 13,700,824 | 13700824 | |
Mandelbrot Set
The Mandelbrot set is named after Benoît Mandelbrot, a French American mathematician. The illustration below was created with Fractint, an ancient (1988!) but still maintained program that can create
all sorts of fractals (the colors are from a palette called “goodega”, which was meant to work well on EG... | 4 | [
-0.059814453125,
0.053955078125,
-0.046630859375,
0.049072265625,
-0.1025390625,
0.0419921875,
0.061279296875,
0.0201416015625,
0.076171875,
-0.078125,
0.025634765625,
-0.1044921875,
-0.022216796875,
0.019775390625,
-0.0859375,
-0.11669921875,
-0.038818359375,
-0.10205078125,
0.0... | 13,700,825 | 13700825 | |
2.2 Use a Problem Solving Strategy - Intermediate Algebra 2e | OpenStax
By the end of this section, you will be able to:
• Use a problem solving strategy for word problems
• Solve number word problems
• Solve percent applications
• Solve simple interest applications
Before you get started, take this readiness... | 4 | [
0.05908203125,
0.046875,
0.0185546875,
-0.04248046875,
-0.0810546875,
0.02392578125,
0.060791015625,
0.0859375,
0.00063323974609375,
0.00714111328125,
0.012451171875,
0.0194091796875,
0.12060546875,
-0.0218505859375,
0.0400390625,
0.037353515625,
-0.087890625,
0.07666015625,
-0.0... | 13,700,826 | 13700826 | |
wu :: forums - Abel's Wire Problem
wu :: forums
riddles
hard (Moderators: Icarus, Eigenray, Grimbal, SMQ, ThudnBlunder, william wu, towr) « Previous topic | Next topic »
Pages: 1 Reply Notify of replies Send Topic Print
Author Topic: Abel's Wire Problem (Read 16600 times)
william wu Abel's Wire Problem
wu::ridd... | 5 | [
-0.083984375,
0.04150390625,
-0.034912109375,
0.07958984375,
-0.02880859375,
0.04638671875,
0.042724609375,
0.01611328125,
-0.03662109375,
-0.0045166015625,
0.095703125,
0.06640625,
-0.07470703125,
0.061279296875,
-0.07470703125,
0.1015625,
-0.060791015625,
-0.06689453125,
0.0025... | 13,700,827 | 13700827 | |
Digital Modulation
In digital communication, the information we wish to send from the transmitter to the receiver are the bits. Bits of information can represent anything from ASCII characters in a Microsoft Word
document, to numeric values that represent samples from an audio signal, to numeric values that represent... | 4 | [
0.054443359375,
-0.0289306640625,
-0.07470703125,
-0.046142578125,
-0.0478515625,
-0.01446533203125,
0.056396484375,
-0.00372314453125,
0.06640625,
-0.007659912109375,
0.03955078125,
0.01495361328125,
0.048583984375,
0.028076171875,
0.048095703125,
0.03369140625,
0.06982421875,
0.0... | 13,700,828 | 13700828 | |
NCERT Solutions Class 9 Maths Chapter 10 Circles Free PDF Download
*According to the CBSE Syllabus 2023-24, this chapter has been renumbered as Chapter 9.
NCERT Solutions for Class 9 Maths Chapter 10 Circles are provided here in PDF format, which can be downloaded for free. The NCERT Solutions for the chapter Circles ... | 4 | [
-0.06494140625,
0.001129150390625,
0.0279541015625,
-0.040771484375,
-0.0185546875,
0.044921875,
0.0458984375,
0.09326171875,
-0.08251953125,
-0.0390625,
-0.006256103515625,
-0.036376953125,
0.0269775390625,
0.0152587890625,
0.0108642578125,
-0.0693359375,
-0.09130859375,
-0.026000... | 13,700,829 | 13700829 | |
Derivatives of the Trigonometric Functions
Formulas of the derivatives of trigonometric functions sin(x), cos(x), tan(x), cot(x), sec(x) and csc(x), in calculus, are presented along with several examples involving products, sums and quotients
of trigonometric functions.
Formulae For The Derivatives of Trigonometric F... | 5 | [
-0.05078125,
0.0164794921875,
0.01507568359375,
0.01324462890625,
-0.0126953125,
0.03857421875,
0.035888671875,
0.041259765625,
0.0849609375,
0.0238037109375,
0.0751953125,
-0.10791015625,
0.041015625,
-0.019775390625,
0.072265625,
-0.06005859375,
-0.016845703125,
0.1015625,
-0.0... | 13,700,830 | 13700830 | |
Using Trigonometric Ratios to Solve Problems Involving Circles
Question Video: Using Trigonometric Ratios to Solve Problems Involving Circles Mathematics • Third Year of Preparatory School
Line segment 𝐴𝐵 is a diameter of a circle with a radius of 62.5 cm. Point 𝐶 is on the circumference of the circle where line se... | 4 | [
-0.01031494140625,
0.09912109375,
-0.048583984375,
0.03173828125,
0.014404296875,
0.00897216796875,
-0.006866455078125,
0.078125,
0.003936767578125,
-0.05419921875,
0.09912109375,
-0.056396484375,
0.06787109375,
0.08251953125,
0.05224609375,
-0.052978515625,
-0.11279296875,
0.05224... | 13,700,831 | 13700831 | |
How to Find Critical Values in Excel [Complete Guide]
Excel is not just a software service where you can only insert a few data tables and call it a day. There’s a myriad of applications when it comes to managing huge datasets in various manners, like
finding the critical values for a normal or interval distribution.
... | 5 | [
0.046875,
0.00946044921875,
-0.08447265625,
-0.0089111328125,
-0.042724609375,
0.0186767578125,
-0.1005859375,
0.1044921875,
0.0322265625,
0.06640625,
-0.011962890625,
-0.125,
0.052734375,
-0.0224609375,
0.054931640625,
-0.0084228515625,
0.049560546875,
-0.109375,
-0.0283203125,
... | 13,700,832 | 13700832 | |
Average Velocity in context of initial acceleration
30 Aug 2024
Journal of Physics and Mathematics
Volume 12, Issue 3, 2023
Average Velocity in the Context of Initial Acceleration
Abstract
In this article, we explore the concept of average velocity in relation to initial acceleration. We derive a formula for ave... | 4 | [
-0.060791015625,
-0.036376953125,
0.0732421875,
0.049560546875,
-0.001312255859375,
0.031494140625,
-0.06298828125,
0.06591796875,
0.046630859375,
0.036865234375,
0.1279296875,
0.01312255859375,
0.01373291015625,
0.001373291015625,
-0.09375,
0.022216796875,
0.00823974609375,
0.0625... | 13,700,833 | 13700833 | |
3/27/2017
After finding a number of calculators for parachutes, which alas had hardcoded values for atmosphere and gravity, I came upon this site. I was able to extract the formulas and create a spreadsheet
using the values. The Internet has values for Martian air density and gravity, which need to be used in place o... | 4 | [
-0.008056640625,
-0.021240234375,
-0.0245361328125,
-0.02587890625,
0.0157470703125,
-0.059814453125,
0.018310546875,
0.095703125,
0.0074462890625,
0.053466796875,
0.04150390625,
-0.051025390625,
-0.0106201171875,
0.029296875,
-0.046630859375,
0.033935546875,
-0.052001953125,
0.041... | 13,700,834 | 13700834 | |
The Stacks project
A representable morphism $X \to Y$ of algebraic spaces is a monomorphism according to Section 67.3 if for every scheme $Z$ and morphism $Z \to Y$ the morphism $Z \times _ Y X \to Z$ is representable
by a monomorphism of schemes. This means exactly that $Z \times _ Y X \to Z$ is an injective map of sh... | 4 | [
-0.0458984375,
-0.0888671875,
-0.0189208984375,
0.00048828125,
0.076171875,
0.037841796875,
0.0137939453125,
0.0771484375,
-0.0234375,
-0.060546875,
0.035400390625,
-0.03515625,
-0.0012054443359375,
0.039794921875,
0.02001953125,
-0.015869140625,
0.0302734375,
-0.042236328125,
0.... | 13,700,835 | 13700835 | |
Combining the SuperTrend With the RSI
How to Create a Trend-Following Strategy in Python
Trend following strategies rely on confirmation techniques to detect as early as possible a new trend. This article discusses a strategy on the RSI and the SuperTrend.
The Relative Strength Index
First introduced by J. Welles W... | 4 | [
-0.0625,
-0.005157470703125,
-0.027099609375,
0.03564453125,
0.012451171875,
-0.03955078125,
-0.0556640625,
0.09521484375,
-0.0478515625,
-0.038330078125,
-0.0673828125,
0.07177734375,
0.0201416015625,
0.05322265625,
-0.02685546875,
-0.046630859375,
-0.0198974609375,
-0.01055908203... | 13,700,836 | 13700836 | |
Can You Pour the Water?
This Week's Fiddler
To get to 5 liters, we first fill pitcher A with 10 liters. We then dump 3 liters from A into and out of B; we do this three times to have 1 liter left in A. Pour this liter into B, and refill A. Now
we can pour just 2 liters into B to fill it up, leaving us with 8 liters i... | 5 | [
-0.07666015625,
0.0283203125,
-0.031982421875,
-0.05517578125,
-0.039794921875,
0.01507568359375,
-0.00921630859375,
-0.013916015625,
-0.01171875,
-0.04931640625,
-0.07861328125,
-0.058837890625,
0.03466796875,
0.08154296875,
-0.01220703125,
0.004150390625,
-0.07568359375,
0.008666... | 13,700,837 | 13700837 | |
Definite Integral Calculator
How to Calculate a Definite Integral Using Our Definite Integral Calculator
To calculate a definite integral using our definite integral calculator, follow these simple steps:
• Input the Equation: Enter the function you want to integrate in the designated field. Ensure you use the corr... | 4 | [
0.0576171875,
0.0264892578125,
0.0225830078125,
-0.07421875,
-0.037353515625,
-0.06689453125,
-0.07275390625,
0.078125,
-0.012939453125,
0.039794921875,
-0.006622314453125,
-0.01507568359375,
0.018310546875,
0.017578125,
0.00823974609375,
0.0303955078125,
-0.078125,
-0.06689453125,... | 13,700,838 | 13700838 | |
Radius of a Circle by Paper Folding
Finding the radius of a circle without special tools is not a trivial matter, unless, of course, you are aware of a Sangaku problem. Sangaku, a mathematical tablet in Japanese, was an art form that
flourished during the period of self-imposed seclusion that lasted about 200 years. ... | 5 | [
-0.11376953125,
0.10009765625,
-0.08837890625,
-0.0296630859375,
-0.052978515625,
-0.10986328125,
-0.0191650390625,
0.1083984375,
-0.0035400390625,
0.0069580078125,
0.043212890625,
-0.01287841796875,
0.011474609375,
0.06494140625,
-0.02783203125,
-0.004119873046875,
-0.1259765625,
... | 13,700,839 | 13700839 | |
Maple
Contents Previous Next
2 Global Optimization Toolbox
2.1 Introduction to the Global Optimization Toolbox
Overview
The Global Optimization Toolbox, powered by Optimus technology from Noesis Solutions, provides world-class
global optimization technology to return the best answer to your optimiz... | 5 | [
-0.04150390625,
-0.012451171875,
-0.00775146484375,
-0.02734375,
-0.034912109375,
-0.11181640625,
-0.035400390625,
0.0228271484375,
-0.048828125,
-0.0213623046875,
-0.031494140625,
0.05712890625,
0.0115966796875,
0.005889892578125,
-0.04443359375,
0.04150390625,
0.004547119140625,
... | 13,700,840 | 13700840 | |
Knight Errant
The Knight Errant Puzzle
Introduction
The Ultimate Book of Number Puzzles by Kenneth Kelsey contains various puzzles which relate to magic and semimagic squares.
On page 48, there is a puzzle which combines a semimagic square (a square grid of numbers in which the numbers in each row and column are equ... | 4 | [
0.06689453125,
0.06494140625,
-0.0228271484375,
-0.02685546875,
-0.0732421875,
0.08203125,
-0.0028228759765625,
-0.0028076171875,
0.01519775390625,
-0.02783203125,
-0.05517578125,
0.04248046875,
0.044677734375,
-0.0189208984375,
-0.09765625,
-0.0615234375,
-0.0281982421875,
0.01611... | 13,700,841 | 13700841 | |
Shifting functors: Alternative for numerical towers?
I've been longing for a functional programming language that'd double as a computer algebra system. One of the problems has been that numerical types in these languages do not compose very well.
People usually build up some sort of a numerical tower. You get intege... | 4 | [
-0.08154296875,
0.0211181640625,
-0.0255126953125,
-0.009765625,
-0.10205078125,
-0.029296875,
-0.018310546875,
-0.01708984375,
0.0162353515625,
-0.006927490234375,
-0.0185546875,
-0.08837890625,
-0.03662109375,
0.0380859375,
0.0888671875,
-0.022216796875,
-0.002655029296875,
0.111... | 13,700,842 | 13700842 | |
Reinforced Concrete Design of Simply Supported One-Way Solid Slab to BS8110 - Concise Info
Reinforced Concrete Design of Simply Supported One-Way Solid Slab to BS8110
strength of materials used in this article
weight of concrete = 24kN/m³
Characteristic strength of concrete f[cu] = 25N/mm²
Characteristic strength o... | 5 | [
-0.091796875,
-0.028076171875,
-0.022216796875,
0.005950927734375,
-0.01904296875,
-0.0120849609375,
-0.0498046875,
0.1162109375,
-0.11474609375,
-0.04345703125,
-0.037353515625,
-0.10693359375,
-0.0194091796875,
-0.072265625,
-0.038330078125,
0.039306640625,
0.059326171875,
0.0268... | 13,700,843 | 13700843 | |
How To Use NPER Function In Excel
In this lesson you can learn how to use NPER function in Excel.
The NPER function is similar to both the Future Value and Present Value functions. But the difference is that the NPER formula will be returning the quantity of an investment, using the periodic,
consistent payment and ... | 4 | [
-0.051025390625,
0.041015625,
-0.06494140625,
-0.035888671875,
-0.0003528594970703125,
-0.01092529296875,
-0.072265625,
0.07763671875,
0.06787109375,
0.07861328125,
0.007080078125,
-0.053466796875,
-0.00225830078125,
0.031982421875,
0.0576171875,
0.0458984375,
-0.140625,
-0.0539550... | 13,700,844 | 13700844 | |
Cramer's method for linear equations
•
• Thread starter lendav_rott
• Start date
•
Tags
In summary, according to the homework statement, Cramer's rule states that if A is the matrix of the coefficients of the variables, then aij is a corresponding element and Aij = (-1)i+j*Mij - the
subdeterminant. Howe... | 4 | [
-0.08154296875,
0.0311279296875,
-0.035400390625,
-0.0224609375,
0.0341796875,
-0.014404296875,
0.035888671875,
-0.01055908203125,
-0.07275390625,
0.0859375,
0.04345703125,
0.0302734375,
0.0859375,
-0.0267333984375,
-0.0400390625,
0.1435546875,
-0.08203125,
-0.03076171875,
0.0184... | 13,700,845 | 13700845 | |
A right triangle has sides A, B, and C. Side A is the hypotenuse and side B is also a side of a rectangle. Sides A, C, and the side of the rectangle adjacent to side B have lengths of 9 , 8 , and 22 , respectively. What is the rectangle's area? | Socratic
A right triangle has sides A, B, and C. Side A is the hypotenuse... | 4 | [
0.044189453125,
0.05322265625,
0.028076171875,
-0.003570556640625,
-0.046142578125,
0.04345703125,
0.007659912109375,
0.09423828125,
-0.0228271484375,
-0.060791015625,
-0.0361328125,
-0.006103515625,
0.034423828125,
0.0634765625,
-0.01068115234375,
0.014892578125,
0.03662109375,
-0... | 13,700,846 | 13700846 | |
Rejection Sampling
Rejection Sampling
I am delighted to share that my paper Embrace rejection: Kernel matrix approximation with randomly pivoted Cholesky has been released on arXiv, joint with Joel Tropp and Rob Webber.
On the occasion of this release, I want to talk about rejection sampling, one of the most powerfu... | 4 | [
-0.1123046875,
-0.002532958984375,
-0.03173828125,
-0.0133056640625,
0.060302734375,
-0.038818359375,
0.061279296875,
0.01361083984375,
0.01239013671875,
0.0380859375,
-0.03271484375,
0.09619140625,
0.08544921875,
-0.1103515625,
-0.0703125,
0.0272216796875,
0.045654296875,
-0.01782... | 13,700,847 | 13700847 | |
distance between two parallel lines
Post here for help on using FreeCAD's graphical user interface (GUI). They aren't intersecting. Distance Between Parallel Lines. The distance gradually shrinks to zero as they meet at the poles. Now
the distance between two parallel lines can be found with the following formula: d =... | 4 | [
-0.126953125,
0.00482177734375,
-0.0146484375,
-0.09716796875,
-0.005645751953125,
0.035400390625,
-0.050537109375,
0.08056640625,
0.03759765625,
0.0201416015625,
0.087890625,
-0.09423828125,
-0.01092529296875,
0.034423828125,
-0.045166015625,
0.061279296875,
-0.0791015625,
-0.0014... | 13,700,848 | 13700848 | |
Gauge freedom and four-potentials in the STA form of Maxwell’s equation. - Peeter Joot's Blogreciprocal frame vector – Peeter Joot's Blog
Gauge freedom and four-potentials in the STA form of Maxwell’s equation.
March 27, 2022 math and physics play charge density, curl, current density, Dirac basis, divergence, dot pro... | 5 | [
-0.119140625,
0.0299072265625,
-0.06982421875,
0.009765625,
0.027587890625,
0.10791015625,
0.0301513671875,
0.0380859375,
0.03173828125,
-0.054443359375,
0.046630859375,
-0.0167236328125,
-0.04052734375,
0.0703125,
0.0277099609375,
-0.00482177734375,
-0.09423828125,
0.05712890625,
... | 13,700,849 | 13700849 | |
Count bits set in parallel a.k.a. Population Count
01: unsigned int countBits(unsigned int x)
02: {
03: // count bits of each 2-bit chunk
04: x = x - ((x >> 1) & 0x55555555);
05: // count bits of each 4-bit chunk
... | 4 | [
0.0184326171875,
0.055419921875,
-0.01446533203125,
-0.04296875,
-0.064453125,
-0.0673828125,
0.0084228515625,
-0.00022602081298828125,
-0.02734375,
-0.0262451171875,
0.005157470703125,
-0.09765625,
0.053466796875,
-0.042724609375,
-0.04345703125,
-0.022705078125,
-0.0751953125,
0.... | 13,700,850 | 13700850 | |
StatisticsProbability
Probability Basics 2
The third condition we established (in the previous post) for a sample space (equiprobability of the elements) can sometimes lead to slightly counter-intuitive results.
We need to understand the underlying logic carefully. So let's spend a bit of time examining it more closel... | 4 | [
-0.002197265625,
0.06494140625,
-0.01531982421875,
-0.08154296875,
0.0206298828125,
0.038818359375,
0.0322265625,
0.0966796875,
0.035400390625,
0.1044921875,
-0.047607421875,
-0.1416015625,
0.0498046875,
0.0311279296875,
0.0133056640625,
-0.061279296875,
0.053466796875,
-0.03100585... | 13,700,851 | 13700851 | |
Eureka Math Grade 7 Module 6 Lesson 15 Answer Key
Engage NY Eureka Math 7th Grade Module 6 Lesson 15 Answer Key
Eureka Math Grade 7 Module 6 Lesson 15 Example Answer Key
Example 1.
A triangular fence with two equal angles, ∠S = ∠T, is used to enclose some sheep. A fence is constructed inside the triangle that exactl... | 4 | [
-0.10400390625,
0.05712890625,
0.005706787109375,
0.005126953125,
-0.0277099609375,
-0.023681640625,
0.05224609375,
-0.0228271484375,
0.0096435546875,
0.00145721435546875,
0.05126953125,
-0.08203125,
0.031005859375,
0.053466796875,
0.00567626953125,
0.04248046875,
-0.08447265625,
-... | 13,700,852 | 13700852 | |
Linear Inequality Word Problems
LINEAR INEQUALITY WORD PROBLEMS
When we solve word problems on linear inequalities, we have to follow the steps given below.
Step 1 :
Read and understand the information carefully and translate the statements into linear inequalities.
Step 2 :
Solve for the variable using basic op... | 4 | [
-0.032470703125,
0.12109375,
-0.0146484375,
-0.052978515625,
-0.08984375,
0.0205078125,
-0.035888671875,
-0.0186767578125,
-0.06640625,
0.06396484375,
-0.0257568359375,
-0.0478515625,
0.09716796875,
-0.00946044921875,
0.051025390625,
0.10693359375,
-0.0306396484375,
0.0005416870117... | 13,700,853 | 13700853 | |
Inverse Mercator projection
In my earlier post on the Mercator projection, I derived the function h(φ) that maps latitude on the Earth to vertical height on a map. The inverse of this function turns out to hold a few surprises.
The height y corresponding to a positive latitude φ is given by
h(φ) = log( sec(φ) + tan... | 4 | [
-0.09228515625,
0.01385498046875,
0.03662109375,
-0.0556640625,
0.0341796875,
-0.052490234375,
0.01263427734375,
0.055419921875,
0.0301513671875,
-0.01312255859375,
0.1171875,
0.05126953125,
-0.016845703125,
-0.026611328125,
-0.010986328125,
-0.055419921875,
-0.033935546875,
-0.005... | 13,700,854 | 13700854 | |
Walk Like a Sabermetrician
These are very simple playoff odds, based on my crude rating system for teams using an equal mix of W%, EW% (based on R/RA), PW% (based on RC/RCA), and 69 games of .500. They account for home field
advantage by assuming a .500 team wins 54.2% of home games (major league average 2006-2015). Th... | 4 | [
-0.05029296875,
-0.005767822265625,
-0.046630859375,
0.024658203125,
0.06201171875,
0.0216064453125,
-0.09033203125,
0.1298828125,
0.057373046875,
0.024169921875,
-0.11083984375,
-0.0167236328125,
-0.0162353515625,
0.06103515625,
-0.020751953125,
-0.0213623046875,
-0.04931640625,
-... | 13,700,855 | 13700855 | |
Section Summary
5.1 Magnets
• Magnetism is a subject that includes the properties of magnets, the effect of the magnetic force on moving charges and currents, and the creation of magnetic fields by currents.
• There are two types of magnetic poles, called the north magnetic pole and south magnetic pole.
• North... | 4 | [
-0.057861328125,
-0.0810546875,
-0.0272216796875,
-0.0361328125,
0.08056640625,
0.022216796875,
-0.0098876953125,
-0.01953125,
-0.038818359375,
-0.04150390625,
-0.06787109375,
0.03076171875,
0.01318359375,
-0.050537109375,
-0.00762939453125,
0.01104736328125,
-0.0634765625,
-0.0135... | 13,700,856 | 13700856 | |
cientific
Use scientific notation to calculate the result in each expression. Write answers in scientific notation. 78\. \(\frac{0.000015(42,000,000)}{0.000009(0.000005)}\)
Short Answer
Expert verified
1.4 \times 10^{13}
Step by step solution
01
- Convert Numbers to Scientific Notation
Express each number in t... | 4 | [
0.03515625,
0.06689453125,
0.00872802734375,
0.03759765625,
-0.030517578125,
-0.07958984375,
0.038330078125,
0.09326171875,
0.0211181640625,
0.0849609375,
0.017578125,
-0.146484375,
0.03759765625,
0.07666015625,
-0.04150390625,
0.0703125,
-0.07763671875,
0.06884765625,
-0.1162109... | 13,700,857 | 13700857 | |
St. Petersburg Paradox
The St. Petersburg paradox is a paradox discovered by James Bernoulli in the field of game theory. Consider a game in which a coin is flipped until heads comes up. If it comes up on the first toss,
you win $1. If it comes up on the second toss, you win $2. If it comes up on the third toss, you wi... | 5 | [
-0.0233154296875,
-0.006805419921875,
-0.040283203125,
0.0277099609375,
0.005828857421875,
0.005889892578125,
0.0240478515625,
0.0029296875,
0.07373046875,
0.03466796875,
-0.1357421875,
0.024169921875,
-0.013916015625,
-0.037841796875,
-0.08544921875,
-0.01043701171875,
0.01025390625... | 13,700,858 | 13700858 | |
12. [The Chain Rule] | Multivariable Calculus | Educator.com
Let C(t) = ( t,[1/2]t ). Find the composition F(C(t)) given F(x,y) = 2xy.
So F′(C(t)) = − sin(t) and F′(C(p)) = − sin(p) = 0.
*These practice questions are only helpful when you work on them offline on a piece of paper and then use the solution steps functi... | 5 | [
-0.0830078125,
0.0299072265625,
0.044677734375,
-0.05810546875,
0.004241943359375,
0.032958984375,
-0.031982421875,
0.024169921875,
-0.0205078125,
0.04345703125,
0.09765625,
0.048583984375,
0.0264892578125,
0.044921875,
-0.003936767578125,
0.059814453125,
-0.10400390625,
-0.0247802... | 13,700,859 | 13700859 | |
sample
Farrow Rate Converter
Polynomial sample-rate converter
Since R2022a
Libraries:
DSP HDL Toolbox / Signal Operations
Description
The Farrow Rate Converter block converts the sample rate of a signal by using FIR filters to implement a polynomial sinc approximation. A Farrow filter is an efficient rate convert... | 4 | [
-0.04638671875,
0.024658203125,
-0.11083984375,
-0.033447265625,
0.00775146484375,
0.037109375,
-0.1416015625,
0.00007915496826171875,
0.0263671875,
-0.087890625,
-0.080078125,
-0.06005859375,
-0.05810546875,
-0.0537109375,
0.0220947265625,
0.02099609375,
0.0184326171875,
0.0810546... | 13,700,860 | 13700860 | |
nterest
Sign up for free
You have reached the daily AI limit
Start learning or create your own AI flashcards
Review generated flashcards
Sign up for free
to start learning or create your own AI flashcards
As we continue, we will understand better what this means in maths.
Interest meaning
Interest is a fee paid ... | 4 | [
0.012451171875,
-0.0052490234375,
-0.0654296875,
0.0322265625,
0.040283203125,
-0.018798828125,
0.05224609375,
0.0439453125,
0.06494140625,
0.05419921875,
0.01220703125,
-0.0224609375,
-0.0235595703125,
-0.009033203125,
-0.00799560546875,
-0.00885009765625,
-0.038330078125,
-0.0471... | 13,700,861 | 13700861 | |
CONTROL TO
(1)
Journal
of
^Applied
MathematicsandStochasticAnalysis 5, Number 4,Winter 1992, 339-362
EXISTENCE OF SOLUTION TO
TRANSPIILTION CONTROL PROBLEM’
GUANGTIAN ZHU
^2
lnslitule
of ^System
^Science
Academia Sinica Beijing,
CHINA
JINGANG WU
and
BENZHONG LIANG
Xinyang Teachers College
Henan,
CHIN... | 4 | [
-0.06689453125,
0.03564453125,
-0.00518798828125,
-0.006317138671875,
-0.10498046875,
-0.01483154296875,
0.01190185546875,
0.0380859375,
0.0177001953125,
0.052490234375,
0.076171875,
0.00140380859375,
0.0615234375,
-0.0712890625,
-0.031494140625,
0.0458984375,
-0.0296630859375,
-0.... | 13,700,862 | 13700862 | |
Find the square root of 9801 by long division method.
Hint: For solving this question you should know about the long division method. In this problem we will divide 9801 and will get the answer by solving this division with a long division method.
First, we will solve using that division and then the quotient will be o... | 4 | [
-0.06298828125,
0.04150390625,
-0.0002460479736328125,
0.04931640625,
0.0302734375,
0.01416015625,
-0.03564453125,
0.05712890625,
-0.05419921875,
-0.025146484375,
-0.01153564453125,
0.0179443359375,
0.0142822265625,
0.052978515625,
-0.09228515625,
-0.06103515625,
-0.0849609375,
0.0... | 13,700,863 | 13700863 | |
A Course of Mathematics
pleted only 220 yards of the wall. It is required to determine how many men must be added to the former, that the whole number of them may just finish the wall in the time proposed, at the same rate
of ... | 4 | [
0.07958984375,
0.050048828125,
-0.078125,
-0.012939453125,
-0.083984375,
-0.059814453125,
-0.080078125,
0.01953125,
-0.0294189453125,
0.09716796875,
-0.045166015625,
-0.06298828125,
0.008056640625,
0.0595703125,
-0.03759765625,
-0.0296630859375,
-0.064453125,
-0.00069427490234375,
... | 13,700,864 | 13700864 | |
| What is Piping
Pressure Safety Valve Sizing | Relief Sizing Calculation
The purpose of pressure safety valves is to shield machinery from extreme overpressure. In addition to offering the necessary protection, appropriately sized relief valves can help prevent problems
caused by high flow rates, such as undersized ... | 5 | [
-0.04541015625,
0.0712890625,
0.003173828125,
0.00121307373046875,
0.0201416015625,
0.027587890625,
-0.01043701171875,
0.146484375,
-0.0272216796875,
-0.0005340576171875,
-0.036376953125,
-0.01904296875,
0.0022125244140625,
-0.025634765625,
-0.06787109375,
-0.00054168701171875,
-0.05... | 13,700,865 | 13700865 | |
In how many ways can two vowels and three consonants from the letters of the word ARTICLE?
Hint: First we have to define what the terms we need to solve the problem are.
Since the given question is to find the number of ways so we use to formula of the combination;
Combination is the number of ways to arrange or count ... | 4 | [
0.056884765625,
-0.0673828125,
-0.01544189453125,
-0.0419921875,
-0.1435546875,
0.11376953125,
0.06396484375,
-0.0299072265625,
0.022216796875,
0.0439453125,
0.025390625,
-0.1005859375,
0.00616455078125,
-0.00579833984375,
0.08203125,
0.01116943359375,
-0.046875,
-0.01300048828125,... | 13,700,866 | 13700866 | |
Compact Dual-Band Bandpass Filter Using U-Shaped Stepped-Impedance Resonators with Parallel Coupled Structures
Article information
J. Electromagn. Eng. Sci. 2018;18(2):73-77
Received 2017 September 8; Revised 2017 December 7; Accepted 2018 January 5.
Abstract
This paper proposes a dual-band bandpass filter using s... | 4 | [
-0.046875,
0.09619140625,
0.0130615234375,
-0.06396484375,
-0.03515625,
-0.03759765625,
-0.0576171875,
-0.0034942626953125,
-0.029296875,
-0.043701171875,
-0.05029296875,
-0.061767578125,
0.0279541015625,
-0.057861328125,
0.02880859375,
-0.01361083984375,
-0.0751953125,
0.027221679... | 13,700,867 | 13700867 | |
Single Particle Model (SPM)
Tip
An interactive online version of this notebook is available, which can be accessed via
Alternatively, you may download this notebook and run it offline.
Single Particle Model (SPM)#
Model Equations#
The SPM consists of two spherically symmetric diffusion equations: one within a re... | 4 | [
-0.0174560546875,
-0.0595703125,
0.0279541015625,
0.0537109375,
0.033935546875,
0.04248046875,
0.07763671875,
0.046142578125,
0.042724609375,
0.03173828125,
0.039306640625,
-0.04345703125,
0.06005859375,
0.042724609375,
0.03466796875,
-0.037841796875,
0.055419921875,
-0.06591796875... | 13,700,868 | 13700868 | |
nt
Balbharti Maharashtra State Board Class 8 Maths Solutions covers the Practice Set 2.2 8th Std Maths Answers Solutions Chapter 2 Parallel Lines and Transversals.
Practice Set 2.2 8th Std Maths Answers Chapter 2 Parallel Lines and Transversals
Question 1.
Choose the correct alternative.
i. In the given figure, if li... | 4 | [
-0.062255859375,
0.039794921875,
0.0042724609375,
-0.0869140625,
-0.0556640625,
0.0162353515625,
0.031982421875,
0.068359375,
-0.056396484375,
0.040771484375,
0.0732421875,
-0.123046875,
0.02490234375,
-0.0225830078125,
0.02783203125,
0.0233154296875,
-0.10107421875,
-0.02905273437... | 13,700,869 | 13700869 | |
A solid cone of base radius 10 cm is cut into two parts through the midpoint of its height, by a plane parallel to its base. Find the ratio in the volumes of two parts of the cone.
Hint – In this question first draw the pictorial representation of the problem it will give us a clear picture of what we have to find out ... | 4 | [
-0.0223388671875,
0.0537109375,
0.0146484375,
-0.0205078125,
0.03662109375,
-0.013671875,
0.02490234375,
0.10205078125,
-0.00872802734375,
-0.0035247802734375,
-0.043212890625,
-0.05517578125,
-0.01556396484375,
0.1318359375,
0.01434326171875,
-0.03466796875,
-0.049560546875,
0.092... | 13,700,870 | 13700870 | |
Heat transfer in cooling fins.xls
Description
KNOWN: Dimensions and base temperature of aluminum fins of rectangular profile. Ambient air conditions.
FIND: a) Fin efficiency and effectiveness.
b) Rate of heat transfer per unit length of tube.
ASSUMPTIONS: 1) Steady-state conditions.
2) One-dimensional radial conducti... | 4 | [
0.007659912109375,
0.053466796875,
-0.002227783203125,
0.01141357421875,
0.056884765625,
-0.051513671875,
0.00921630859375,
0.031982421875,
-0.027587890625,
0.006256103515625,
-0.00787353515625,
-0.09130859375,
0.0712890625,
-0.038330078125,
-0.031494140625,
-0.09619140625,
0.0023193... | 13,700,871 | 13700871 | |
Science:Math Exam Resources/Courses/MATH100/December 2011/Question 08
MATH100 December 2011
• Q1 (a) • Q1 (b) • Q1 (c) • Q1 (d) • Q1 (e) • Q1 (f) • Q1 (g) • Q1 (h) • Q1 (i) • Q1 (j) • Q1 (k) • Q1 (l) • Q1 (m) • Q1 (n) • Q2 (a) • Q2 (b) • Q3 (a) • Q3 (b) • Q4 (a) • Q4 (b) • Q5 (a) • Q5 (b) •
Q5 (c) • Q5 (d) • Q5 (e) •... | 5 | [
-0.0084228515625,
0.08056640625,
0.0263671875,
-0.030517578125,
-0.0400390625,
0.09814453125,
0.029296875,
-0.04150390625,
-0.02685546875,
0.060302734375,
-0.0101318359375,
-0.060791015625,
0.003387451171875,
0.064453125,
-0.016845703125,
0.0595703125,
-0.040283203125,
0.0032043457... | 13,700,872 | 13700872 | |
3.1 Simplifying hypotheses
1. The flow is two-dimensional.
2. The fluid is Newtonian.
3. The physical properties of solid and liquid phases are constant.
4. The viscous dissipation is negligible.
5. The Boussinesq approximation is valid: the density is assumed to be constant in all terms of momentum equations, e... | 4 | [
-0.0341796875,
-0.049072265625,
0.01226806640625,
-0.015625,
0.00738525390625,
0.03076171875,
0.0439453125,
0.033203125,
-0.04638671875,
-0.04541015625,
-0.0869140625,
-0.064453125,
0.059326171875,
-0.03955078125,
-0.0296630859375,
-0.0693359375,
0.0546875,
0.0091552734375,
0.019... | 13,700,873 | 13700873 | |
Vector Spaces II | JustToThePointVector Spaces II
Quidquid latine dictum sit, altum sonatur, - Whatever is said in Latin sounds profound.
We will continue having lots of useless documentation to save our asses, tons of pointless meeting, and fruitless and endless discussions until we find out why no work is ge... | 5 | [
-0.0196533203125,
0.01470947265625,
0.0037994384765625,
0.015625,
0.009033203125,
-0.004669189453125,
0.0108642578125,
-0.0206298828125,
0.041259765625,
-0.01226806640625,
0.0133056640625,
-0.0064697265625,
0.002655029296875,
-0.0291748046875,
-0.00110626220703125,
-0.00131988525390625... | 13,700,874 | 13700874 | |
Epidemic Modeling in MATLAB
1. Epidemic Modeling in MATLAB
How to Solve Epidemic Modeling Assignments Using MATLAB
July 29, 2024
John Dean
Australia
MATLAB
John Dean is a seasoned expert in epidemic modeling with over 15 years of experience in the field. He earned his Ph.D. in Applied Mathematics from the Univer... | 5 | [
0.033935546875,
-0.0135498046875,
-0.00830078125,
-0.043701171875,
0.005401611328125,
-0.0081787109375,
-0.035888671875,
0.056884765625,
-0.0220947265625,
0.0400390625,
0.00494384765625,
0.021728515625,
0.12158203125,
0.0556640625,
-0.0166015625,
-0.058349609375,
-0.07861328125,
-0... | 13,700,875 | 13700875 | |
Fréchet Derivatives 4: The Determinant
\[ \nabla \det M &= \det M \cdot \left(M^{-1}\right)^\top \]
Introduction
In this series of blog posts, we’ve seen that writing derivatives in the Fréchet style makes the computation of derivatives of functions that have matrix- or vector-valued inputs and scalar outputs
substa... | 5 | [
-0.11669921875,
-0.07373046875,
0.046875,
-0.005126953125,
0.0194091796875,
0.005950927734375,
-0.02001953125,
-0.03369140625,
0.0159912109375,
0.055419921875,
0.11328125,
0.09619140625,
0.0076904296875,
-0.0115966796875,
-0.05029296875,
0.08251953125,
-0.03369140625,
0.072265625,
... | 13,700,876 | 13700876 | |
0.999.../Proof by multiplication by 10 - Wikibooks, open books for an open world
0.999.../Proof by multiplication by 10
x = 0.999 … 10 x = 9.999 … 10 x − x = 9.999 … − 0.999 … 9 x = 9 x = 1.000 … {\displaystyle {\begin{aligned}x&=0.999\ldots \\10x&=9.999\ldots \\10x-x&=9.999\ldots -0.999\ldots \\9x&=9\\x&=1.000... | 4 | [
-0.0478515625,
0.046630859375,
0.0027008056640625,
-0.0172119140625,
-0.011474609375,
-0.023193359375,
0.050537109375,
0.11328125,
0.029052734375,
-0.00677490234375,
0.05712890625,
-0.05615234375,
0.0419921875,
0.07763671875,
-0.03271484375,
-0.038330078125,
-0.052490234375,
0.0471... | 13,700,877 | 13700877 | |
Counting Labeled Trees
How many trees are there with vertex set \([n]=\{1,2,\dots,n\}\text{?}\) Let \(T_n\) be this number. For \(n=1\text{,}\) there is clearly only one tree. Also, for \(n=2\text{,}\) there is only one
tree, which is isomorphic to \(\bfK_2\text{.}\) In determining \(T_3\text{,}\) we finally have some ... | 5 | [
0.034912109375,
0.005401611328125,
-0.031982421875,
-0.01275634765625,
0.0208740234375,
-0.01007080078125,
0.043212890625,
-0.0250244140625,
0.04638671875,
0.034912109375,
0.0003452301025390625,
-0.12353515625,
-0.00860595703125,
-0.06396484375,
0.04736328125,
0.0458984375,
-0.021362... | 13,700,878 | 13700878 | |
On Classical Ideal Gases
^1
Mas Liron, F30440 Saint Martial, France
^2
IES, UMR n°5214 au CNRS, Université Montpellier II, F34095 Montpellier, France
^3
LIRMM, UMR n°5506 au CNRS, 161 rue Ada, F34392 Montpellier, France
^*
Author to whom correspondence should be addressed.
Submission received: 12 December 2012... | 4 | [
-0.14453125,
0.0233154296875,
-0.0179443359375,
0.04638671875,
0.048095703125,
0.0267333984375,
0.05517578125,
0.046630859375,
0.05908203125,
0.056884765625,
0.00286865234375,
-0.06884765625,
-0.00396728515625,
0.0198974609375,
-0.00634765625,
-0.03515625,
-0.038330078125,
0.056640... | 13,700,879 | 13700879 | |
Evaluate Division
Equations are given in the format A / B = k, where A and B are variables represented as strings, and k is a real number (floating point number). Given some queries, return the answers. If the answer
does not exist, return -1.0.
Example:
Given a / b = 2.0, b / c = 3.0.
queries are: a / c = ?, b / a = ... | 4 | [
-0.045166015625,
0.06884765625,
-0.1083984375,
0.03369140625,
-0.09130859375,
-0.046875,
0.0142822265625,
-0.008544921875,
0.00860595703125,
0.04052734375,
0.007049560546875,
-0.099609375,
0.0576171875,
-0.004608154296875,
-0.04833984375,
0.037109375,
-0.061767578125,
-0.0130615234... | 13,700,880 | 13700880 | |
General lens model
Jump to navigation Jump to search
General lens model are based on mathematical descriptions of ideal projections. In the radially symmetric models below theta (θ) is the angle between view ray and optical axis. Next to the model name
mathematical descriptions in three colums. Firstly the ideal proje... | 4 | [
-0.03662109375,
-0.042236328125,
-0.04931640625,
-0.06884765625,
0.016357421875,
-0.038818359375,
0.00592041015625,
0.060546875,
0.034423828125,
0.01708984375,
0.056640625,
-0.0225830078125,
0.0284423828125,
-0.00213623046875,
-0.06884765625,
0.0111083984375,
-0.06982421875,
-0.013... | 13,700,881 | 13700881 | |
Wolfram
Resolve
Resolve[expr]
attempts to resolve expr into a form that eliminates ForAll and Exists quantifiers.
Examples
open allclose all
Basic Examples (4)
Scope (52)
Complex Domain (6)
Decide the existence of solutions of a univariate polynomial equation:
Decide the existence of solutions of a multivaria... | 5 | [
-0.0859375,
-0.0135498046875,
0.0140380859375,
0.020263671875,
-0.051513671875,
-0.045654296875,
-0.05419921875,
0.0556640625,
0.044921875,
0.009033203125,
0.049072265625,
-0.021728515625,
0.037841796875,
0.0400390625,
0.0439453125,
0.03759765625,
-0.056640625,
-0.0380859375,
-0.... | 13,700,882 | 13700882 | |
How do you find the intervals of increasing and decreasing using the first derivative given y=sinx+cosx? | Socratic
How do you find the intervals of increasing and decreasing using the first derivative given #y=sinx+cosx#?
1 Answer
The function is increasing on intervals of the form $\left[- \frac{3 \pi}{4} + 2 n \pi... | 5 | [
-0.0693359375,
-0.01165771484375,
0.046875,
0.055908203125,
-0.04736328125,
0.03369140625,
-0.0126953125,
0.0869140625,
0.035400390625,
-0.037109375,
0.0174560546875,
0.0286865234375,
0.087890625,
-0.0306396484375,
0.048828125,
-0.07080078125,
0.0654296875,
-0.0172119140625,
0.10... | 13,700,883 | 13700883 | |
Strengthening a tube connected building group by base isolators and story isolators
Abstract
Seismic isolation systems have been used to retrofit existing buildings. However seldom studies have focused on retrofit existing building groups by isolation system. This study uses base isolation
technologies and story isola... | 4 | [
0.0240478515625,
-0.007568359375,
0.046142578125,
-0.031494140625,
-0.0005035400390625,
-0.035400390625,
-0.0908203125,
0.03466796875,
0.032470703125,
-0.027099609375,
0.02587890625,
0.041748046875,
0.06640625,
-0.09033203125,
0.01446533203125,
-0.047607421875,
-0.0047607421875,
0.... | 13,700,884 | 13700884 | |
Thoughts on the good regulator theorem — LessWrong
I just became aware of the good regulator theorem through John Wentworth's post. Then I tried to read the paper he talked about, Every Good Regulator Of A System Must Be A Model Of That System. This
is among the worst papers I've ever skimmed. It's barely comprehensibl... | 4 | [
-0.0830078125,
0.0006866455078125,
0.00848388671875,
0.03759765625,
0.0693359375,
0.09228515625,
0.0235595703125,
0.0634765625,
-0.0164794921875,
0.09326171875,
0.0174560546875,
0.09228515625,
0.078125,
-0.02392578125,
-0.033447265625,
0.056640625,
0.038818359375,
0.002700805664062... | 13,700,885 | 13700885 | |
MTH 461 University of Miami Modern Algebra Questions
MTH 461 University of Miami Modern Algebra Questions
MTH 461 University of Miami Modern Algebra Questions
5 attachmentsSlide 1 of 5
UNFORMATTED ATTACHMENT PREVIEW
MTH 461: Survey of Modern Algebra, Spring 2021 Homework 9 Homework 9 1. Determine which of the fol... | 4 | [
-0.0576171875,
0.0673828125,
0.00811767578125,
-0.06298828125,
0.0125732421875,
0.00125885009765625,
0.1015625,
-0.022216796875,
-0.0206298828125,
0.03173828125,
-0.02197265625,
-0.036865234375,
0.07470703125,
-0.004150390625,
-0.054931640625,
0.08154296875,
-0.037841796875,
-0.084... | 13,700,886 | 13700886 | |
(PDF) Ballistic Saturation Velocity Modelling Beyond Ohm's Law
Author content
All content in this area was uploaded by Ismail Saad
Content may be subject to copyright.
Ballistic Saturation Velocity Modelling Beyond Ohm’s Law
Ismail Saad
1
, Nurmin Bolong
1
, KhairulA. Muhamad.
1
, Abu Bakar A. Rahman
1
an... | 4 | [
0.0223388671875,
0.035400390625,
0.032470703125,
0.048583984375,
0.00286865234375,
-0.0771484375,
-0.08056640625,
0.09033203125,
-0.02880859375,
0.0546875,
0.0301513671875,
0.004486083984375,
0.036376953125,
-0.0022125244140625,
0.07470703125,
0.0167236328125,
0.08447265625,
0.0461... | 13,700,887 | 13700887 | |
Program Your own Bootstrap Command #R#
# A similar bootstrap command is written in Stata: see
http://www.econometricsbysimulation.com/2012/07/write-your-own-bootstrap-command.html
# The bootstrap command is an extremely powerful command that resamples from you sampling distribution in order to estimate a standard err... | 5 | [
-0.10986328125,
-0.034423828125,
-0.005645751953125,
0.041259765625,
0.08642578125,
-0.0751953125,
-0.06298828125,
0.078125,
-0.0810546875,
0.0009918212890625,
-0.0264892578125,
0.003692626953125,
0.040771484375,
-0.051513671875,
0.022705078125,
-0.0274658203125,
0.015380859375,
0.... | 13,700,888 | 13700888 | |
Kenya Certificate of Secondary Education(KCSE) Physics 2009 PAPER 1 - EasyElimu: Learning Simplified
SECTION A (25 marks)
Answer all questions in this section in the spaces provided
1. In an experiment to measure the density of a liquid, a student filled a burette with a liquidto the 0 cm^3 mark. Figure 1 shows a sec... | 4 | [
-0.06591796875,
0.03173828125,
0.026123046875,
0.0255126953125,
-0.031982421875,
-0.001068115234375,
0.051513671875,
0.06201171875,
-0.015380859375,
0.0303955078125,
0.0390625,
-0.107421875,
0.02587890625,
0.01190185546875,
-0.09228515625,
-0.0654296875,
-0.02099609375,
-0.00270080... | 13,700,889 | 13700889 | |
The Elements of Euclid for the Use of Schools and Colleges
BOOK IV.
DEFINITIONS.
1. A RECTILINEAL figure is said to be inscribe... | 4 | [
-0.0081787109375,
0.034423828125,
-0.027587890625,
-0.02294921875,
-0.09619140625,
-0.00148773193359375,
0.029541015625,
0.01226806640625,
0.1318359375,
-0.0133056640625,
0.00726318359375,
-0.0615234375,
0.041748046875,
0.0257568359375,
-0.0011138916015625,
-0.0576171875,
-0.02587890... | 13,700,890 | 13700890 | |
Clapeyron-Mendeleev equation. The relationship between the number of moles of gas, the temperature, volume and pressure.
Clapeyron-Mendeleev equation. The relationship between the number of moles of gas, the temperature, volume and pressure.
The calculator below is used for Clapeyron-Mendeleev equation or state of id... | 4 | [
-0.0244140625,
-0.01336669921875,
-0.03173828125,
0.057373046875,
0.0184326171875,
-0.07958984375,
-0.01806640625,
0.0235595703125,
-0.021240234375,
-0.06689453125,
-0.06689453125,
-0.06396484375,
0.00136566162109375,
0.07177734375,
-0.0113525390625,
-0.05419921875,
-0.0634765625,
... | 13,700,891 | 13700891 | |
Wolfram's Mathematica 101
After a lengthy preamble, I'll try to explain the language in the http://learnxinyminutes.com/ style, so you might prefer to skip down to the last section.
This will appear in a shorter form also on AltDevBlogADay
- Introduction
I've been using Wolfram's Mathematica since my days in univer... | 5 | [
-0.09375,
-0.033935546875,
0.0306396484375,
0.01708984375,
0.001922607421875,
-0.07763671875,
-0.01544189453125,
0.0693359375,
-0.01458740234375,
0.04248046875,
-0.09619140625,
-0.0234375,
0.010986328125,
0.03955078125,
-0.00592041015625,
0.06396484375,
0.05810546875,
0.00048065185... | 13,700,892 | 13700892 | |
Class 7: Uncertainty & Probability Theory: The Logic of Science: Logic Intuition Check
Video
Thanks to an anonymous donor for the gift of the new equipment, which has resulted in a New & Improved! picture and sound. Thanks, too, to Matthew Bushey of Milwuakee who showed me how to use it all.
You will see that I still... | 5 | [
0.0177001953125,
0.005401611328125,
0.06591796875,
-0.018798828125,
-0.0015716552734375,
-0.01373291015625,
0.05517578125,
0.056396484375,
-0.00074005126953125,
0.0250244140625,
0.0184326171875,
0.00469970703125,
0.05029296875,
-0.0517578125,
-0.051513671875,
0.0181884765625,
0.02819... | 13,700,893 | 13700893 | |
This Blog is Untitled
Persistence length $L_p$ is a basic mechanical property quantifying the bending stiffness of a polymer and is defined as the relaxation of $\langle\cos(\theta)\rangle$ of bond angles of the polymer
chain:
$$ \langle\cos(\theta(s))\rangle = \exp(-sl/L_p) $$
The problem of calculating $L_p$ become... | 4 | [
-0.0693359375,
-0.02392578125,
0.0087890625,
0.03125,
0.0079345703125,
-0.039306640625,
-0.0274658203125,
0.08837890625,
0.0081787109375,
-0.05029296875,
0.00872802734375,
0.0849609375,
-0.02294921875,
0.016357421875,
0.0224609375,
-0.01080322265625,
-0.020263671875,
0.042236328125... | 13,700,894 | 13700894 | |
Sets: Naïve, Axiomatic and Applied
A Basic Compendium with Exercises for Use in Set Theory for Non Logicians, Working and Teaching Mathematicians and Students
• 1st Edition - May 9, 2014
• Authors: D. Van Dalen, H. C. Doets, H. De Swart
•
•
• Paperback ISBN:
9 7 8 - 1 - 4 8 3 1 - 1 7 9 7 - 3
• e... | 4 | [
0.03173828125,
-0.030029296875,
-0.0174560546875,
-0.040771484375,
0.0093994140625,
-0.024658203125,
0.0634765625,
0.01214599609375,
-0.06396484375,
0.07568359375,
-0.072265625,
-0.016357421875,
0.0289306640625,
-0.04150390625,
0.02734375,
0.0211181640625,
0.041015625,
-0.007080078... | 13,700,895 | 13700895 | |
str
Lesson 15
Questioning Experimenting
Let's ask the right questions to analyze data from an experiment.
15.1: Is It the Treatment?
A scientist divides 30 strawberry plants into two groups at random. One group of 15 plants will represent the control group and is grown in standard greenhouse conditions. The second ... | 4 | [
0.0308837890625,
0.01007080078125,
0.03369140625,
0.0108642578125,
0.046875,
-0.01214599609375,
-0.06689453125,
0.020263671875,
0.030517578125,
0.054443359375,
0.08349609375,
-0.04248046875,
-0.0126953125,
-0.0458984375,
-0.03369140625,
-0.052001953125,
0.0208740234375,
-0.05224609... | 13,700,896 | 13700896 | |
Subordinators – The Dan MacKinlay stable of variably-well-consider’d enterprises
Subordinators
Non-decreasing Lévy processes with weird branding
October 14, 2019 — February 24, 2022
branching
point processes
probability
stochastic processes
\[\renewcommand{\var}{\operatorname{Var}} \renewcommand{\dd}{\mathrm{d}}... | 4 | [
-0.0286865234375,
-0.062255859375,
0.12255859375,
-0.01556396484375,
-0.01336669921875,
-0.035888671875,
0.01287841796875,
0.04443359375,
0.01318359375,
0.007659912109375,
0.00135040283203125,
0.1123046875,
-0.0257568359375,
-0.0113525390625,
-0.029541015625,
0.043701171875,
0.000843... | 13,700,897 | 13700897 | |
Regenerating the DS1847/DS1848 Resistor Calibration Constants
摘要
The purpose of this application note is to show how the DS1847/48 digital resistor calibration constants can be regenerated. This application note assumes that the reader is familiar with the
Programming the Lookup Table section of the DS1847 or DS1848 d... | 4 | [
-0.1357421875,
0.04638671875,
-0.0098876953125,
0.01483154296875,
-0.019287109375,
-0.0830078125,
-0.0546875,
0.0595703125,
-0.03173828125,
-0.031982421875,
-0.014404296875,
-0.052490234375,
-0.00830078125,
-0.059326171875,
-0.0086669921875,
-0.037109375,
0.0029296875,
0.0776367187... | 13,700,898 | 13700898 | |
Constructing atomic terms (uncoupled representation) - Mono Mole
Constructing atomic terms (uncoupled representation)
Consider the coupling of two electrons. From eq205, we have
$\hat{J}=\hat{L}\otimes&space;I+I\otimes\hat{S}$
where $\hat{L}=\hat{l}^{(1)}\otimes&space;I+I\otimes\hat{l}^{(2)}$ and $\hat{S}=\hat{s}^{(... | 5 | [
-0.07373046875,
0.0034027099609375,
0.00811767578125,
0.040771484375,
0.017333984375,
0.1298828125,
-0.0062255859375,
-0.0208740234375,
-0.0208740234375,
-0.031982421875,
-0.007415771484375,
-0.07373046875,
0.055908203125,
-0.0035247802734375,
0.00616455078125,
0.005523681640625,
-0.... | 13,700,899 | 13700899 |