Calculate the derivative of the following functions.
y =...

Question

Calculate the derivative of the following functions.

y = tan(xe^x)

Accepted Answer

Welcome back, everyone. In this problem, we want to find the derivative of the function Y equals the sin of sine X multiplied by E to the X. A says it's EX multiplied by the cosine of sine X E X multiplied by the cosine of X minus the sine of X. B says it's EX multiplied by the cosine of the sine of XXX. sorry, multiplied by the cosine of X plus sine X. C says it's EX multiplied by the sign of the sine of X multiplied by E X, multiplied by cos x plus sine X. And the D says it's EX multiplied by the cosine of sin X multiplied by EX multiplied by sin x minus + X. Now, notice here that Y represents a function within a function. It's a composite. And to differentiate composite functions, recall that we can use the chain rule. Call that by the chain rule. If we have one function y expressed in terms of of another function u where u is a function of X, OK, then the derivative of Y with respect to X is going to be equal to the derivative of y with respect to U multiplied by the derivative of U with respect to X, OK. So in this case, we'll need to express why in terms of you, find its derivative, find the derivative of the inner function, and then multiply those together, OK? Now, how can we do that? Well, first, from our function, we can tell that U is going to be equal to the sin of x multiplied by e to the X, OK? So now, in that case. Then let me put this in blue here starting with DYDU. Given you If we, sorry, given Y, if we use that to express our function here, given Y being equal to the sign of you, OK, then the derivative of Y with respect to you is going to be equal. To the cosine, OK, the cosine of you, OK? And in this case we know that you is going to be equal to the sign of X multiplied by e to the X, OK? So we've expressed or we've differentiated Y with respect to you. Next, let's differentiate you with respect to X. Now, looking at you, you can tell that it is a product, OK? It's sin x multiplied by E to the X. Thus, we can use the product rule of differentiation. What does that mean? Well, the product rule tells us, let me write that in red here, that if We have some function Y being equal to UV, OK? Then the derivative of Y with respect to X, where U and V are functions of X is going to be equal to UDVDX. Plus VDUD X. In other words, we differentiate one term, multiplied by the other, and we multiply the derivative of the other term by the separate term, OK? So here, If we let, let's say we let you be equal to the sign of X, OK. And V be equal to E X, OK. Then the derivative of U with respect to X is going to be equal to the cosine of X, and the derivative of V with respect to X is going to be equal to e X. So in that case then, by applying the product rule, OK, that means Y D Y D X, and no, remember we're just talking about our function u. I said why, but that was just to make the rule a little easier to read. But the derivative of Y with respect to X, which we are calling you, is going to be equal to. The sign of X, sorry, the core sign of, alright, let me write this properly here. It's gonna be equal to the sine of X multiplied by e to the X. Plus the cosine of X multiplied by e to the X, OK? And this is going to represent DUDX from our problem. Know that we have the derivative of you with respect to X, and we have the derivative of Y with respect to you. Therefore, this means that DUID X. Is going to be equal, OK, to the cosine of sine X E X, OK. Multiplied by the cosine of X Multiplied by E X plus the sign of X multiplied by E X. Now notice both of these terms have a common factor of E to the X. So if we factor E to the XO, then we're going to be left with E to the X multiplied by the cosine of the sine of X multiplied by E to the X, OK. Multiplied by the cosine of x plus the sign of X. Thus, this is the derivative of Y with respect to X. If we look back at our answer choices, that tells us B is the correct answer. Thanks a lot for watching everyone. I hope this video helped.

Calculate the derivative of the following functions.
y = tan(xe^x)

Key Concepts

Derivative

Product Rule

Chain Rule

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