What is the equation of the normal line of #f(x)=x-x^2/2# at #x=2#?

1 Answer
Trevor Ryan.
Nov 13, 2015

#y=x-2#

Explanation:

Firstly, #f(2)=2-2^2/2=0#.

Thus the point #(2,0)# lies on the graph of f at the point 2.

Now the derivative #f'(x)=1-x#,
and evaluated at the point 2 we get #f'(2)=1-2=-1#.

This means that the gradient of the function f at the point when x=-2 is -1.

Now a line normal at this point is perpendicular and will hence have a gradient of 1 since the product of gradients of perpendicular lines must be -1.

Bu t a normal line is still a straight line so has a linear equation of form #y=mx+c#.
If we substitute the point (2,0) and the gradient 1 into this linear equation we get
#0=2+c =>c=-2#.

Therefore the equation of the required normal line is #y=x-2#.

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