Question

What is the equation of the line that is normal to `f(x)=(x+4)^2e^x` at `x=-3`?

Answer 1

`1/3e^3x+y-e^(-3)+e^3=0`. See normal-inclusive Socratic graph

Explanation:

graph{(e^x(x+4)^2-y)(1/3e^3x+y-e^(-3)+e^3)=0 [-4, -2, -0.5, 0.5]}

y > 0.

As `xto=oo, y to 0`, revealing that `y = 0 larr` is the asymptote.

At `x =-3, y = e^(-3)`.

So, the foot of the normal is `P(-3, e^(-3))`

`y'=e^x((x+4)^2+2(x+4))=3e^(-3)`, at `x = -3`.

The slope of the normal is `-1/(y')=-1/3e^3`

And so, the equation to the normal at P is

`y-e^(-3)=-1/3e^3(x+3)`, giving

`1/3e^3x+y-e^(-3)+e^3=0`