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The Statistics and Calculus with Python Workshop

You're reading from   The Statistics and Calculus with Python Workshop A comprehensive introduction to mathematics in Python for artificial intelligence applications

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Product type Paperback
Published in Aug 2020
Publisher Packt
ISBN-13 9781800209763
Length 740 pages
Edition 1st Edition
Languages
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Authors (6):
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Ajinkya Sudhir Kolhe Ajinkya Sudhir Kolhe
Author Profile Icon Ajinkya Sudhir Kolhe
Ajinkya Sudhir Kolhe
Quan Nguyen Quan Nguyen
Author Profile Icon Quan Nguyen
Quan Nguyen
Marios Tsatsos Marios Tsatsos
Author Profile Icon Marios Tsatsos
Marios Tsatsos
Alexander Joseph Sarver Alexander Joseph Sarver
Author Profile Icon Alexander Joseph Sarver
Alexander Joseph Sarver
Peter Farrell Peter Farrell
Author Profile Icon Peter Farrell
Peter Farrell
Alvaro Fuentes Alvaro Fuentes
Author Profile Icon Alvaro Fuentes
Alvaro Fuentes
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Table of Contents (14) Chapters Close

Preface
1. Fundamentals of Python 2. Python's Main Tools for Statistics FREE CHAPTER 3. Python's Statistical Toolbox 4. Functions and Algebra with Python 5. More Mathematics with Python 6. Matrices and Markov Chains with Python 7. Doing Basic Statistics with Python 8. Foundational Probability Concepts and Their Applications 9. Intermediate Statistics with Python 10. Foundational Calculus with Python 11. More Calculus with Python 12. Intermediate Calculus with Python Appendix

Using Derivatives to Solve Optimization Problems

In many applied problems, we're looking for an optimal point, where the error is lowest, for example, or the profit is highest. The traditional way is to model the situation using a function, find the derivative of the function, and solve for the input that makes the derivative zero. This is because the derivative is zero at local minima and maxima, as shown in the following figure:

Figure 10.21: A cubic function and the points we want to find

The function we're given in the figure is f(x) = x3 - 2.8x2 + 1.2x + 0.85. We're interested in finding the local maximum, point A, and the local minimum, point B. We would have to differentiate the function and solve the resulting equation by hand. But using a computer, we can simply start at a value of x on the left of the grid and take small steps, checking f(x) until we get a change in direction. To do that, we can use our derivative function to check...

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