How do you find the derivative of #F(x)= (2x^3-1)/x^2#?

2 Answers
Dec 9, 2017

The quotient rule states that given a function #F(x) = (g(x))/(h(x)), (dF)/dx = ((dg)/(dx) * h(x) - g(x) * (dh)/dx)/(h(x))^2#. See explanation for solution.

Explanation:

The quotient rule states that given a function #F(x) = (g(x))/(h(x)), (dF)/dx = ((dg)/(dx) * h(x) - g(x) * (dh)/dx)/(h(x))^2#

The power rule can help us find the derivatives of both numerator and denominator quickly.

#g(x) = 2x^3-1, (dg)/dx = 6x^2#
#h(x) = x^2, (dh)/dx = 2x, h^2(x)=x^4#

Thus...

#(dF)/dx = ((6x^2)(x^2) - (2x^3-1)(2x))/x^4 = (6x^4-4x^4+2x)/(x^4) = (2x^4+2x)/x^4 = 2 + 2/x^3#

Of note, the function will approach #-oo# as #x->0#

Dec 10, 2017

I would rewrite: #F(x) = 2x-1/x^2#

Explanation:

#f'(x) = 2+2/x^3 = (2x^3+2)/x^3#

using #d/dx(-1x^-2) = 2x^-3#

and rewriting as a single quotient.