Exercise 6: Consider the function f(x) = coth(x) = cosh(x)/ sinh(x). (a) Find the domain and range of f. (b) Compute the derivative of f, by the quotient rule. (c) Prove that f is injective. Let g(x) = arccoth(x) be the inverse. (d) Compute the derivative of g(x), by thinking of it as an inverse function: let arccoth(y), and solve for the inverse using (b) and hyperbolic identities. coth(x), so x = (e) Solve for an expression of g(x) using only previoulsy known functions. (f) Compute the derivative of g(x) using the explicit expression for found in part (e). (g) (Hard) Use the expression found for the derivative to solve the following integral: dy J y – y ln(y)²* Remark: Your answer will be different dependent on | In y| < 1 or | In y| > 1. Thus to solve the integral separately on these two sets. you will have

Exercise 6: Consider the function f(x) = coth(x) = cosh(x)/ sinh(x). (a) Find the domain and range of f. (b) Compute the derivative of f, by the quotient rule. (c) Prove that f is injective. Let g(x) = arccoth(x) be the inverse. (d) Compute the derivative of g(x), by thinking of it as an inverse function: let arccoth(y), and solve for the inverse using (b) and hyperbolic identities. coth(x), so x = (e) Solve for an expression of g(x) using only previoulsy known functions. (f) Compute the derivative of g(x) using the explicit expression for found in part (e). (g) (Hard) Use the expression found for the derivative to solve the following integral: dy J y – y ln(y)²* Remark: Your answer will be different dependent on | In y| < 1 or | In y| > 1. Thus to solve the integral separately on these two sets. you will have

Calculus: Early Transcendentals

8th Edition

ISBN:9781285741550

Author:James Stewart

Publisher:James Stewart

Chapter1: Functions And Models

Section: Chapter Questions

Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...

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