The functions in Exercises 11-28 are all one-to-one. For each fun...

Question

The functions in Exercises 11-28 are all one-to-one. For each function,
a. Find an equation for f^-1(x), the inverse function.
b. Verify that your equation is correct by showing that f(ƒ^-1 (x)) = = x and ƒ^-1 (f(x)) = x. f(x) = (2x +1)/(x-3)

Accepted Answer

Hello. We are going to go ahead and find the inverse of our given function. And we're gonna verify that that is the inverse of our function. So the given function is f. Of X is equal to three X plus four over x minus 11. Now, every time you want to go ahead and find an inverse you can go ahead and rewrite F of X as y. So that will always be your first step and your second step is to go ahead and switch the positions of X and Y. So that's going to give me X is equal to three Y plus four over y minus 11. Now what we need to go ahead and do is to go ahead and solve for Y and that's gonna give us our inverse. So in order to do that I need to go ahead and first get rid of this denominator. And in order to do that I'm gonna go ahead and multiply both sides of the equation by y minus 11. That is going to give me X times the quantity y minus is equal to three, Y plus four. Now I'm gonna go ahead and distribute the X into the quantity Y minus 11. And what that's going to give me is X y minus 11, X. Is equal to three, Y plus four. Now what I want to go ahead and do is move all the all the terms that involve y to one side of the equation and anything that doesn't have Y to the other side. So I'm gonna go ahead and add 11 X to both sides of the equation. And subtract three Y to both sides of the equation. And that's going to leave me with X, y minus three. Y is equal to 11 X plus four. Now notice on the left hand side, both of the terms have the common factor of why? So we can go ahead and factor out a Y from the left hand side of the equation. And that's going to give me why times the quantity x minus three is equal to 11 X plus four. Now the last step is to go ahead and get Y by itself. And in order to do that, I'm going to divide both sides of the equation by the quantity X minus three. That's going to give me Y is equal to 11 X plus four over x minus three. And this is going to be my f inverse function. And this is the f inverse function where x cannot equal to three. Because if you were to plug in positive three into this denominator, you're going to get a denominator of zero which produces an undefined value. Now we need to verify that this f inverse is the inverse of our original function. And in order to do that, we need to go ahead and find two composite functions F of f inverse of X and F inverse of F of X. And when we find these two, composite functions, if they are equal to each other and produce the value of X then that verifies that they are in verses of each other. So let's go ahead and start by finding f of f inverse of X. That is going to be three times the quantity 11 X plus four over x minus three plus four. All over 11, X plus four over X minus three -11. Now we need to go ahead and simplify the numerator and denominator. Simplifying the numerator and combining all the terms together is going to give us 37 x over X -3. And simplifying the denominator in combining the terms together is going to give us 37 over X -3. Now what we need to do is go ahead and get rid of the complex fraction And in order to do that, I'm gonna multiply by the reciprocal of the complex fraction to both the numerator and denominator. And that reciprocal is going to be X -3/37. So that's going to completely cancel out the bottom denominator. And for the numerator we can cancel out the quantities X minus three and we can cancel out the 37 that is going to leave us with just X. So F of f inverse of X is equal to X. Now we need to verify f inverse of F of X. So f inverse of f of X is going to be 11 times the quantity three X plus four over X minus 11 plus four over three. X plus four over x minus 11 minus three. Now, just like before we're going to go ahead and simplify the numerator and combine the terms together and we're going to simplify the denominator and combine the terms together. Doing so is going to give us a numerator of 37 X over X minus 11. And the denominator of 37 over x minus 11. Now, in order to simplify the complex fraction, I'm gonna once again multiply by the reciprocal of the denominator and we're going to do that to both the numerator and denominator. So that reciprocal is going to be X -11/37. That is going to completely cancel out the complex denominator. And for the numerator we can cancel out the X -11 and the and that is going to leave us with just X. So f of f inverse of X is equal to f inverse of f of X. And they both equal X. And that verifies that they are in verses of each other. So that means that the inverse is 11, X plus four over x minus three, where X cannot equal to three. That is going to be the answer to the problem. And the solution to this problem is going to be C. So I hope this video helps you in understanding how to do this type of process. And I'll go ahead and see you all in the next video.

The functions in Exercises 11-28 are all one-to-one. For each function, a. Find an equation for f^-1(x), the inverse function. b. Verify that your equation is correct by showing that f(ƒ^-1 (x)) = = x and ƒ^-1 (f(x)) = x. f(x) = (2x +1)/(x-3)

Key Concepts

One-to-One Functions

Inverse Functions

Verification of Inverse Functions

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