AP Calculus AB Chapter 5, Section 3 · •Continuity and Differentiability of Inverse Functions...
Transcript of AP Calculus AB Chapter 5, Section 3 · •Continuity and Differentiability of Inverse Functions...
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AP Calculus AB Chapter 5, Section 3
Inverse Functions
2013 - 2014
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Inverse Functions • From Pre-Cal:
– If a set of coordinates 𝑓: 1, 4 , (2, 5 , 3, 6 , (4, 7)} represents solutions to a function, then the solutions to the inverse of the function can be represented by the coordinates 𝑓−1: { 4, 1 , 5, 2 , 6, 3 , 7, 4 }.
• Note that the domain of f is equal to the range of 𝑓−1, and vice versa, then the functions have the effect of “undoing” each other.
• 𝑓 𝑓−1 𝑥 = 𝑥 and 𝑓−1 𝑓 𝑥 = 𝑥
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Verifying Inverse Functions
• Show that the functions are inverse functions of each other.
𝑓 𝑥 = 2𝑥3 − 1 and 𝑔 𝑥 =𝑥+1
2
3
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Existence of an Inverse Function
• Not every function has an inverse function.
• You can use the Horizontal Line test to see if a function would have an inverse. If you draw a horizontal line through the graph, it would intersect the graph only once.
• A function is strictly monotonic if it is either increasing on its entire domain or decreasing on its entire domain.
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The Existence of an Inverse Function
• A function has an inverse function if and only if it is one-to-one.
• If f is strictly monotonic on its entire domain, then it is one-to-one and therefore has an inverse function.
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The Existence of an Inverse Function
• Which of the functions has an inverse function?
a) 𝑓 𝑥 = 𝑥3 + 𝑥 − 1
b) 𝑓 𝑥 = 𝑥3 − 𝑥 + 1
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Finding an Inverse Function
• How do you find an inverse function?
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Finding an Inverse Function
• Find the inverse function of 𝑓 𝑥 = 2𝑥 − 3
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Testing Whether a Function is One-to-One
• Graph 𝑓 𝑥 = sin 𝑥 on a window of −𝜋, 𝜋 by −1, 1 .
• Show the function is not one-to-one on the entire real line.
• Show the function is monotonic in the interval −𝜋
2,
𝜋
2
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Derivative of an Inverse Function • Continuity and Differentiability of Inverse
Functions – Let f be a function whose domain is an interval I. If f
has an inverse function, then the following statements are true. • If f is continuous on its domain, then 𝑓−1 is continuous on its
domain.
• If f is increasing on its domain, then 𝑓−1 is increasing on its domain.
• If f is decreasing on its domain, then 𝑓−1 is decreasing on its domain.
• If f is differentiable on an interval containing c and 𝑓′(𝑐) ≠0, then 𝑓−1 is differentiable at 𝑓(𝑐)
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Theorem: Derivative of an Inverse Function
• Let f be a function that is differentiable on an interval I. If f has an inverse function g, then g is differentiable at any x for which 𝑓′(𝑔 𝑥 ) ≠ 0. Moreover,
𝑔′ 𝑥 =1
𝑓′(𝑔 𝑥 ), 𝑓′(𝑔 𝑥 ) ≠ 0
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Evaluating the Derivative of an Inverse Function
• Let 𝑓 𝑥 =1
4𝑥3 + 𝑥 − 1
a) What is the value of 𝑓−1 𝑥 when x = 3?
b) What is the value of (𝑓−1)′(𝑥) when x = 3?
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Graphs of Inverse Functions Have Reciprocal Slopes
• Let 𝑓 𝑥 = 𝑥2 (for 𝑥 ≥ 0) and let 𝑓−1 𝑥 =𝑥. Show that they slopes of the graphs of f
and 𝑓−1 are reciprocals at each of the following points:
• (2, 4) and (4, 2)
• (3, 9) and (9, 3)
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Ch. 5.3 Homework
• Pg 347 – 349, #’s: 3, 9 – 12, 23, 25, 27, 31, 35, 43, 45, 71, 75, 83, 87