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Taylor and Maclaurin Series. Lesson 9.10. Convergent Power Series Form. Consider representing f(x) by a power series For all x in open interval I Containing c Then. Taylor Series.
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Taylor and Maclaurin Series Lesson 9.10
Convergent Power Series Form • Consider representing f(x) by a power series • For all x in open interval I • Containing c • Then
Taylor Series • If a function f(x) has derivatives of all orders at x = c, then the seriesis called the Taylor series for f(x) at c. • If c = 0, the series is the Maclaurin series for f .
Taylor Series • This is an extension of the Taylor polynomials from section 9.7 • We said for f(x) = sin x, Taylor Polynomial of degree 7
Guidelines for Finding Taylor Series • Differentiate f(x) several times • Evaluate each derivative at c • Use the sequence to form the Taylor coefficients • Determine the interval of convergence • Within this interval of convergence, determine whether or not the series converges to f(x)
Series for Composite Function • What about when f(x) = cos(x2)? • Note the series for cos x • Now substitute x2 in for the x's
Binomial Series • Consider the function • This produces the binomial series • We seek a Maclaurin series for this function • Generate the successive derivatives • Determine • Now create the series using the pattern
Binomial Series • We note that • Thus Ratio Test tells us radius of convergence R = 1 • Series converges to some function in interval-1 < x < 1
Combining Power Series • Consider • We know • So we could multiply and collect like terms
Assignment • Lesson 9.10 • Page 685 • 1 – 29 odd
