Question

How do you find the first and second derivative of `y=e^(e^x)`?

Answer 1

`dy/dx = = e^((e^x + x))`

`(d^2y)/(dx^2) = e^((e^x + x))(e^x + 1)`

Explanation:

The chain rule is:

`dy/dx = dy/(du)(du)/dx`

Let `u = e^x`, then `y(u) = e^u`, `dy/(du) = e^u`, and `(du)/(dx) = e^x`

Substitute into the chain rule

`dy/dx = (e^u)(e^x)`

Reverse the u substitution:

`dy/dx = (e^(e^x))(e^x)`

This can be simplified into:

`dy/dx = = e^((e^x + x))`

But I will use the previous form when computing the second derivative.

To compute the second derivative, we use the product rule, `(gh)' = g'h + gh'`, on the first derivative:

let `g = (e^(e^x))`, then `h = e^x, g' = (e^(e^x))(e^x)`, and `h' = e^x`

Substituting into the product rule:

`((e^(e^x))(e^x))' = (e^(e^x))(e^x)(e^x) + (e^(e^x))(e^x)`

`(d^2y)/(dx^2) = e^((e^x + x))(e^x + 1)`