Find the derivative of the function $z=\left(t e^{8 t}+e^{7 t}\right)^{9}$
Answer
Final Answer: The derivative of the function \(z=(t e^{8 t}+e^{7 t})^{9}\) is \(\boxed{(t e^{8 t}+e^{7 t})^{8}(9 e^{8 t} + 72 t e^{8 t} + 63 e^{7 t})}\).
Step 1 :Given the function \(z=(t e^{8 t}+e^{7 t})^{9}\)
Step 2 :We need to find its derivative. We can use the chain rule and the product rule to solve this problem.
Step 3 :The chain rule is a formula to compute the derivative of a composite function. The outer function is \((...)^9\) and the inner function is \(t e^{8 t} + e^{7 t}\).
Step 4 :The product rule is a formula used to find the derivative of a product of two or more functions, in this case \(t\) and \(e^{8 t}\).
Step 5 :Applying the chain rule, we differentiate the outer function first, keeping the inner function as it is. This gives us \(9(t e^{8 t}+e^{7 t})^{8}\).
Step 6 :Next, we differentiate the inner function using the product rule. The derivative of \(t e^{8 t}\) is \(e^{8 t} + 8 t e^{8 t}\) and the derivative of \(e^{7 t}\) is \(7 e^{7 t}\).
Step 7 :Multiplying these together, we get \((t e^{8 t}+e^{7 t})^{8}(e^{8 t} + 8 t e^{8 t} + 7 e^{7 t})\).
Step 8 :Simplifying this expression, we get \((t e^{8 t}+e^{7 t})^{8}(9 e^{8 t} + 72 t e^{8 t} + 63 e^{7 t})\).
Step 9 :Final Answer: The derivative of the function \(z=(t e^{8 t}+e^{7 t})^{9}\) is \(\boxed{(t e^{8 t}+e^{7 t})^{8}(9 e^{8 t} + 72 t e^{8 t} + 63 e^{7 t})}\).
