13-26 Implicit differentiation Carry out the following steps.

Question

b. Find the slope of the curve at the given point.

x = e^y; (2, ln 2)

Accepted Answer

Welcome back, everyone. Given the equation X equals E to the power of 7 Y, you use implicit differentiation to find the slope of the tangent line at the point 128.LN of 2. Were given 4 answer choices A 1 divided by 128 B says 1 divided by 256 C says 1 divided by 448, and D says 1 divided by 896. So let's write down the given equation X equals e to the power of 7 Y. and let's understand that we want to find. The slope of the tension line at a specific point, so we want to identify Y at a 128.LN of 2. So this expression gives us the slope of the tangent line at a point, and this means that we want to identify Y and we can achieve that by using implicit differentiation. We want to differentiate the left hand side, so we're differentiating X, and we're going to set it equal to the derivative of the right hand side, because if we're given an equation, we can apply the derivative to both hand sides. We want to recall that the derivative of X is one, so we're setting one. And we're going to set it equal to the derivative of e to the power of 7 Y. Based on the table of basic derivatives, we know that the derivative of E X is eats the power of X, right? And then in this case we're going to say that this is the power of 7 Y, but our exponent is a function, so we have to multiply that according to the chain rule by the derivative of the exponent, which is the derivative of 7 Y. And we can factor out the constant, so it gives us 7 eats the power of 7 Y multiplied by y. Y is what we're looking for, so we want to solve the equation 1 equals 7E to the power of 7 Y multiplied by Y. Now to solve for Y we have to take the left hand side, which is 1, and divide by 7E to the power of 7 Y, which is the factor in front of Y. And from here while we since want to identify a y at the given point. Notice that Y as a function is not dependent on X. At least we cannot see X in the expression so we're only going to use the Y coordinate. So we get 1 divided by. And before we do that, we are also going to write that we are evaluating at LN of 2. Which is our Y coordinate, and this is equal to 1 divided by 7 multiplied by each the power of 7 multiplied by LN of 2. And now what we want to do is simplify. So we're going to rewrite it as 1 divided by 7 E to the power of LM. Of 2 to the power of 7th. This is because we can essentially apply the properties of logarithms, right? Essentially we know that a. LM of X is equal to lm of X to the power of a. And also we know that it's the power of L and of A is equal to a, and this is why we are applying these two properties because it allows us to see that the final expression is 1 divided by 7 multiplied by e to the power of LN of cheat the power of 7th, right? So that's 2. To the power of 7th. Overall, we're going to get 1 divided by 7 multiplied by 128, which gives us 1 divided by. 896. So the final answer to this problem corresponds to the answer choice D. Thank you for watching.

13-26 Implicit differentiation Carry out the following steps.
b. Find the slope of the curve at the given point.
x = e^y; (2, ln 2)

Key Concepts

Implicit Differentiation

Slope of a Curve

Exponential and Natural Logarithm Functions

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