Is #f(x)=(x^2-4x-2)/(x^2+1)# increasing or decreasing at #x=-3#?

1 Answer
VNVDVI
Mar 31, 2018

#f(x)# is increasing at #x=-3.#

Explanation:

If #f'(-3)>0, f(x)# is increasing at that point.

If #f'(-3)<0, f(x)# is decreasing at that point.

So, first, let's determine #f'(x)# using the Quotient Rule:

#f'(x)=((x^2+1)d/dx(x^2-4x-2)-(x^2-4x-2)d/dx(x^2+1))/(x^2+1)^2#

#f'(x)=((x^2+1)(2x-4)-(x^4-4x-2)(2x))/(x^2+1)^2#

There's not really much of a need for simplification since we're evaluating the derivative at a point only to determine whether it is positive or negative.

#f'(-3)=((9+1)(2(-3)-4)-(81+12-2)(-6))/(10^2)=7/50>0#

#f(x)# is increasing at #x=-3.#

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