Find the derivatives of the functions in Exercises 1–42.

Question

s = (sec t + tan t)⁵

Accepted Answer

Welcome back everyone. Calculate the derivative of the function G of Y equals sin of Y plus cosine of Y raised to the power of 4. For this problem we want to differentiate G of Y, meaning we're evaluating G of Y, and this means that we have to differentiate sine of Y plus cosine of y. Race the power of 4. So now we have to recognize that this is a composite function. It consists of the inner function sign of Y plus cosine of Y and the outer function which is our exponent. It is equal to 4. This means that we're going to apply the chain rule and first of all we have to take care of the outer function. So we have an exponent, and this means that we're going to apply the power rule. And the power rule says that we're bringing down the exponents, so it becomes our coefficient of 4. Multiplying that coefficient by the inner functions sign of Y plus cosine of Y. Which is now raised by a new exponent, which is 1 less compared to the original exponent, so 4 minus 1 gives us 3. However, we are not yet done because according to the chain rule we have to multiply the result by the derivative of the inner functions we are multiplying by the derivative of. Sign off Y plus go sign off Y. And this is where we have to evaluate the remaining derivatives, so let's rewrite the first term, or sign of Y plus cosine of Y, raise the power of 3. And now let's multiply by the derivative of sine, which is cosine based on the table of basic derivatives, and the derivative of cosine is negative sign. And this means that our final answer is 4 multiplied by sin of Y plus cosine of Y raises to the power of 3, multiplied by cosine of Y minus sign of Y. Let's label it as our final answer to this problem. Thank you for watching.

Find the derivatives of the functions in Exercises 1–42.

s = (sec t + tan t)⁵

Key Concepts

Derivative

Chain Rule

Trigonometric Functions

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