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MTH 253 Calculus (Other Topics) Chapter 11 – Infinite Sequences and Series Section 11.8 –Taylor and Maclaurin Series Copyright © 2009 by Ron Wallace, all.

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Presentation on theme: "MTH 253 Calculus (Other Topics) Chapter 11 – Infinite Sequences and Series Section 11.8 –Taylor and Maclaurin Series Copyright © 2009 by Ron Wallace, all."— Presentation transcript:

1 MTH 253 Calculus (Other Topics) Chapter 11 – Infinite Sequences and Series Section 11.8 –Taylor and Maclaurin Series Copyright © 2009 by Ron Wallace, all rights reserved.

2 Back to the goal of the chapter …  Approximating transcendental functions through the use of algebraic functions.  Solution.. Transcendental function must be differentiable of ALL orders. Find a power series equal to the transcendental function. Consider the interval of convergence. Use a portion of the series to approximate the function.

3 Local Linear Approximations Review of Section 3.10 Find a linear equation that approximates a function around a point given the derivative of the function at that point. Tangent Line f(x)

4 Local Quadratic Approximations Find a quadratic equation that approximates a function around a point given the first & second derivatives of the function at that point. f(x) y(x)

5 Local Cubic Approximations Find a Cubic equation that approximates a function around a point given the first, second, and third derivatives of the function at that point. f(x) y(x)

6 Local Cubic Approximations Find a Cubic equation that approximates a function around a point given the first, second, and third derivatives of the function at that point. f(x) y(x)

7 Example Find the Linear, Quadratic, and Cubic equations that approximate the above function around a = 1.

8 Example Find the Linear, Quadratic, and Cubic equations that approximate the above function around x 0 = 1.

9 Generalization … n th degree Polynomial Approximation If f(x) can be differentiated n times at x = a, then the n th Taylor Polynomial for f(x) about x = a is …

10 Taylor Series NOTE: This assumes that f (n) (a) exists for all n.

11 Maclaurin Series NOTE: This assumes that f (n) (0) exists for all n. Taylor Series with a = 0

12 Question …  For a function f(x) that is differentiable for all orders at x = a, will the Taylor Series converge to f(x) for each value of the domain of the function? Maybe!  For some … yes  For some … no  For some … for part of the domain  For all … yes, when x = a

13 Example …  Find the Taylor Series for f(x) = ln x at x = 1. Determine the interval of convergence.

14 Three Important Maclaurin Series All three of these converge for all values of x.

15 One more … ln t ? Begin with … @ x=0 1 2 -3! (-1) n+1 (n-1)!

16 One more … ln t ? Subtracting

17 One more … ln t ?

18 Example …

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