The parabola y=x²+1 consists of two ...

Question

The parabola y=x²+1 consists of two one-to-one functions, g₁(x) and g₂(x). Complete each exercise and confirm that your answers are consistent with the graphs displayed in the figure. <IMAGE>

Find formulas for g₁((x) and g₁⁻¹(x). State the domain and range of each function.

Find formulas for g₁((x) and g₁⁻¹(x). State the domain and range of each function.

Accepted Answer

Welcome back everyone. Given the quadratic function Q of X equals negative two X squared plus four, which is divided into +21 to 1. Functions identify the function Q two of X for the right side of the parabola. And find its inverse also specify the domain and range for both functions. A SSQ two equals negative two, X squared plus four. And its inverse is the square root of four minus X all divided by two where the domain of Q two is X is greater than or equal to zero. And its range is Y is less than or equal to four. While the domain of the inverse is X is less than or equal to four. And its range is Y is greater than or equal to zero. B says Q two remains the same. It's inverse is though the negative value of the square root of four minus X divided by two and the domain of Q two is X is less than or equal to zero while its range is Y is less than or equal to four. And the domain of its inverse is X is less than or equal to four. While its range is Y is less than or equal to zero. C says Q two remains the same. Its inverse is the square root of X minus four divided by two. The domain of Q two is X is greater than or equal to zero. While the range is Y is greater than, or equal to four. While the domain of the inverse is X is greater than or equal to four. And its range is Y is greater than or equal to zero. Finally, D says Q two remains the same. Its inverse is negative value of the square root of X minus four divided by two. The domain of Q two is X is greater than or equal to zero. And its range is Y is greater than equal to four. While the domain of the inverse is X is greater than or equal to four and its range is Y is less than or equal to zero. Now, let's try to start with the first part of our problem. We want to identify the function Q two FX for the right side of the parabola. Now when we look at our function negative two X squared plus four, we know that our function is symmetric about the Y axis. And since it's symmetric there, that means that X or values of X are going to be greater than or equal to zero for the right side of the parabola. OK. So in other words here, for the right side of the parable. Huh OK. We know that Q two of X is going to be equal to negative two, X squared plus four for X is greater than, or equal to zero. Now, if X is greater than or equal to zero, that would be the domain of our function for Q of two. So this is the domain of Q of two. What about the range of QE two of QE two? Sorry. Well, to find a range, first, let's think about the least possible value of our domain. And then what happens? When are the values for our domain increase? OK. So the least possible value of our domain where X is greater than or equal to zero would have to be zero. OK? And at X equals zero. OK, then Q two of zero is going to be equal to negative two multiplied by zero squared plus four, negative two multiplied by zero squared equals zero. So Q two of zero equals four. Now if we start to increase the values of X, because remember X is greater than our equal to zero, then our values of Q of two will decrease. For example, Q two of two, OK would be equal to negative two multiplied by two squared plus 4, 2 squared is four, negative two, multiplied by four is negative eight and the negative eight plus four equals negative four. So the values here this tells us we can assume that the values of Q of Q two, sorry will start to get less as X increases. Therefore, the range OK. The range of Q two is going to be Y less than, or equal to four. In other words, Y equals four is the highest, highest possible value of Q two of X. Now that we have the domain and range for Q two, we can move on to the next part of our problem finding the inverse. OK. So next, let's solve for the inverse of Q two of X. OK. Now to do that, OK. First let's let why be equal to Q two of X OK. And that means then that we can say Y equals negative two X squared plus four. OK. No solving for X in our, then we'll have negative two X squared equal to Y minus four. If we multiply both sides by a negative one, that means two X squared equals four minus Y X squared, then will be four minus Y divided by two. And thus, that tells us if we square root both sides X equals the square root OK? Of four minus Y divided by two. And now remember because we are considering the right side of the parabola. OK. Then our function here we will be taking the positive square root to Sua X. Since this is the solution for X then swapping Y for X, OK. And X for the inverse value of Q two, OK. Then our inverse function for Q two is going to be equal to the positive square root of four minus X divided by two. Now what is going to be the domain and the range for our inverse function? Well, the domain of our inverse function corresponds to the range of our original function. So thus, this tells us that the domain of our inverse function is going to be X is less than or equal to four. OK. And likewise, the range of our inverse function corresponds to the domain of our original function. So thus, for our range that tells us that Y is going to be greater than or equal to zero. Does Q two have eggs equals negative two X squared plus four where its domain is X is greater than equal to zero while its range is Y is less than or equal to four. And the inverse of Q two equals the square root of four minus X divided by two where its domain is X is less than, or equal to four while its range is Y is greater than or equal to zero. If we look back at our answer choices that tells us a is the correct answer. Thanks for watching everyone. I hope this video helped.

The parabola y=x²+1 consists of two one-to-one functions, g₁(x) and g₂(x). Complete each exercise and confirm that your answers are consistent with the graphs displayed in the figure. <IMAGE>

Find formulas for g₁((x) and g₁⁻¹(x). State the domain and range of each function.

Key Concepts

One-to-One Functions

Inverse Functions

Domain and Range

Watch next

The parabola y=x²+1 consists of two one-to-one functions, g₁(x) and g₂(x). Complete each exercise and confirm that your answers are consistent with the graphs displayed in the figure. <IMAGE>Find formulas for g₁((x) and g₁⁻¹(x). State the domain and range of each function.

Key Concepts

One-to-One Functions

Inverse Functions

Domain and Range

Watch next

The parabola y=x²+1 consists of two one-to-one functions, g₁(x) and g₂(x). Complete each exercise and confirm that your answers are consistent with the graphs displayed in the figure. <IMAGE>

Find formulas for g₁((x) and g₁⁻¹(x). State the domain and range of each function.