What is the equation of the normal line of $f (x) = x e^{- x} - x$ $f(x)=xe^-x-x$ at $x = 2$ $x=2$ ?

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Answer 1 · 2017-02-04T04:48:14

$0.7124 x - y - 3.1536$ $0.7124x-y-3.1536$ , nearly. See the normal-inclusive Socratic graph.

$f = x (e^{- x} - 1)$ $f=x(e^(-x)-1)$

At x = 2, f =-2(1-e^(-2))=-1.72933, nearly.

The foot of the normal is P(2, -1.729), nearly

$f'=x(e^(-x)-1)'+(e^(-x)-1)(x)'=-xe^(-x)-e^(-x)-1=-3e^(-2)-1$

$=-1.406$ , nearly. at P.

The slope of the normal at P is -1/f'= 0.7124, nearly.

So, the equation to the normal at P is

#y+1.729=0.7124(x-2), giving

$0.7124x-y-3.1538$ , nearly.

graph{(x(e^(-x)-1)-y)((x-2)^2+(y+1.729)^2-.01)(0.7124x-y-3.1538)=0 [-10, 10, -5, 5]}

What is the equation of the normal line of f(x)=xe^-x-xf(x)=xe−x−xf(x)=xe^-x-x at x=2x=2x=2?