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3.7-2 – Inverse Functions and Properties

3.7-2 – Inverse Functions and Properties. We know how to graph the inverse of a function, but now we will look into expressing a new inverse function Like before, let’s keep in mind the “switching x and y” theory. f -1 (x).

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3.7-2 – Inverse Functions and Properties

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  1. 3.7-2 – Inverse Functions and Properties

  2. We know how to graph the inverse of a function, but now we will look into expressing a new inverse function • Like before, let’s keep in mind the “switching x and y” theory

  3. f-1(x) • The inverse of the function f(x), f-1(x), can be found by switching x and y, and resolving for y • Replace f(x), or whatever the function name is, with y • For example, for the function f(x) = x2, I would write the new equation x = y2, and solve for y

  4. Horizontal Line • Keep in mind the horizontal line test! • If it fails, then…

  5. Example. Find the inverse for the function f(x) =

  6. Example. Find the inverse of the function f(x) = (x+2)5 + 9

  7. Properties of Inverses • For any inverse function, the following properties exist: • f(f-1(x)) = x, for all x in the domain for f-1 • f-1(f(x)) = x, for all x in the domain for f • Tells us that if we evaluate the two functions, in either order, we get out x • Used as a test to confirm the inverse

  8. Properties of Inverses • All graphs of functions who are inverses of each other are reflected over the line y = x • Confirmed by the previous slide • An inverse “undoes” the other function

  9. Example. Show the following two functions are inverses of each other. • f(x) = (3x-1)/5 f-1(x) = (5x + 1)/3

  10. Example. Show the following two functions are inverses of each other. • f(x) = f-1(x) = x3 - 1

  11. Assignment • Pg. 283 • 31 – 57 odd, 63, 64

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