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Inverse Functions

Inverse Functions. Domain and Range Swap Places. Definition of Inverse Function. A function g is the inverse function of the function f if f(g(x))= x for each x in the domain of g and g(f(x))= x for each x in the domain of f. The function g is denoted by f -1 (x).

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Inverse Functions

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  1. Inverse Functions Domain and Range Swap Places

  2. Definition of Inverse Function • A function g is the inverse function of the function f if • f(g(x))= x for each x in the domain of g • and • g(f(x))= x for each x in the domain of f. • The function g is denoted by f-1(x)

  3. Important Observations about Inverse Functions • 1. If g is the inverse function of f, then f is the inverse function of g. • 2. The domain of f-1 is equal to the range of f, and the range of f-1 is equal to the domain of f. • 3. A function need not have an inverse function, but if it does, the inverse function is unique

  4. Verifying Inverse Functions • To verify inverse functions, do the composition. If the answer is x, the functions are inverses of each other. Any other answer, the functions are not inverse functions.

  5. Reflective Property of Inverse Functions • The graph of f contains the point (a, b) if and only if the graph of f-1 contains the point (b, a).

  6. The Existence of an Inverse Function • 1. A function has an inverse function if and only if it is one-to-one. • 2. If f is strictly monotonic on its entire domain, then it is one-to-one and therefore has an inverse function.

  7. Guidelines for Finding an Inverse Function • 1. Use the horizontal line test to determine whether the function has an inverse function. • 2. Solve for x as a function of y • 3. Interchange x and y. • 4. Define the domain of f-1 to be the range of f. • 5. Verify that the f(f-1(x)) = x

  8. 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: • 1. If f is continuous on its domain, then f-1 is continuous on its domain. • 2. If f is increasing on its domain, then f-1 is increasing on its domain.

  9. Continuity and Differentiability of Inverse Functions • 3. If f is decreasing on its domain, then f-1 is decreasing on its domain. • 4. If f is differentiable at c and • f’(c) ≠0, then f-1 is differentiable at • f(c).

  10. The 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,

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