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Calculus II (MAT 146) Dr. Day Monday April 30, 2018

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1 Calculus II (MAT 146) Dr. Day Monday April 30, 2018
Integration Applications Area Between Curves (6.1) Average Value of a Function (6.5) Volumes of Solids (6.2, 6.3) Created by Rotations Created using Cross Sections Arc Length of a Curve (8.1) Probability (8.5) Methods of Integration U-substitution (5.5) Integration by Parts (7.1) Trig Integrals (7.2) Trig Substitution (7.3) Partial-Fraction Decomposition (7.4) Putting it All Together: Strategies! (7.5) Improper Integrals (7.8) Differential Equations What is a differential equation? (9.1) Solving Differential Equations Visual: Slope Fields (9.2) Numerical: Euler’s Method (9.2) Analytical: Separation of Variables (9.3) Applications of Differential Equations Infinite Sequences & Series (Ch 11) What is a sequence? A series? (11.1,11.2) Determining Series Convergence Divergence Test (11.2) Integral Test (11.3) Comparison Tests (11.4) Alternating Series Test (11.5) Ratio Test (11.6) Nth-Root Test (11.6) Power Series Interval & Radius of Convergence New Functions from Old Taylor Series and Maclaurin Series Monday, April 30, 2018

2 Generalized Power Series
This is called: a power series in (x – a), or a power series centered at a, or a power series about a. Monday, April 30, 2018

3 Power Series Convergence
Use the Ratio Test! For what values of x does each series converge? Determine the Radius of Convergence and theInterval of Convergence for each power series. Monday, April 30, 2018

4 Geometric Power Series
If we let cn = 1 for all n, we get a familiar series: This geometric series has common ratio x and we know the series converges for |x| < 1. We also know the sum of this series: Monday, April 30, 2018

5 Geometric Power Series
Monday, April 30, 2018

6 Geometric Power Series
Monday, April 30, 2018

7 Geometric Power Series
Monday, April 30, 2018

8 Why Study Sequences and Series in Calc II?
Taylor Polynomials applet Infinite Process Yet Finite Outcome How Can That Be? Transition to Proof Re-Expression! Monday, April 30, 2018

9 Polynomial Approximators
Our goal is to generate polynomial functions that can be used to approximate other functions near particular values of x. The polynomial we seek is of the following form: Monday, April 30, 2018

10 Monday, April 30, 2018

11 Monday, April 30, 2018

12 Monday, April 30, 2018

13 Polynomial Approximators
Goal: Generate polynomial functions to approximate other functions near particular values of x. Create a third-degree polynomial approximator for Monday, April 30, 2018

14 Create a 3rd-degree polynomial approximator for
Monday, April 30, 2018

15 Beyond Geometric Series Connections: Taylor Series
How can we describe the cn so a power series can represent OTHER functions? ANY functions? Now we go way back to the ideas that motivated this chapter’s investigations and connections: Polynomial Approximators! Monday, April 30, 2018

16 Taylor Series Demo #1 Taylor Series Demo #2 Taylor Series Demo #3
Monday, April 30, 2018

17 Taylor Series Example: f(x) = ex, centered around a = 0.
Look at characteristics of the function in question and connect those to the cn. Example: f(x) = ex, centered around a = 0. Monday, April 30, 2018

18 Taylor Series Example: f(x) = ex, centered around a = 0.
And…how far from a = 0 can we stray and still find this re-expression useful? Monday, April 30, 2018

19 General Form: Coefficients cn
Monday, April 30, 2018

20 Examples: Determining the cn
f(x) = cos(x), centered around a = 0. Monday, April 30, 2018

21 Examples: Determining the cn
f(x) = sin(x), centered around a = 0. Monday, April 30, 2018

22 Examples: Determining the cn
f(x) = ln(1-x), centered around a = 0. Monday, April 30, 2018

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