How do you find the intervals of increasing and decreasing using the first derivative given #y=(x+4)/x^2#?

1 Answer
Andrea S.
Jul 25, 2017

#y(x)# is strictly decreasing in #(-oo,-8)# and reaches a local minimum in #x=8#, then it increases in # (-8,0)#, and it is decreasing again in #(0,+oo)#

Explanation:

Evaluate the first derivative of the function:

#dy/dx = d/dx((x+4)/x^2 ) = (x^2-2x(x+4))/x^4 = -(x+8)/x^3#

and solve the inequality:

#dy/dx < 0#

The inequality is satisfied when numerator and denominator are both positive or both negative, so:

#dy/dx < 0# for #x in (-oo,-8) uu (0,+oo)#

and:

#dy/dx > 0# for #x in (-8,0)#

while the only stationary point is for #x=-8#.

So #y(x)# is strictly decreasing in #(-oo,-8)# and reaches a local minimum in #x=8#, then it increases in # (-8,0)#, and it is decreasing again in #(0,+oo)#

graph{(x+4)/x^2 [-1.1181, -6.118, -0.86, 1.64]}

graph{(x+4)/x^2 [-9, -7, -0.08, -0.04]}

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