How do you find the derivative of #y=(2/(x-1)-x^-3)^4#? Calculus Basic Differentiation Rules Chain Rule 1 Answer Callum S. · mason m Aug 27, 2017 #y'=4(2/(x-1) - x^-3)^3 ((-2)/(x-1)^2+3x^-4)# Explanation: Use the quotient, power, and chain rules. #y = (2/(x-1) - x^-3)^4# Let #u=2/(x-1)# and so through the quotient rule #u'=((x-1)*d/dx2 - 2d/dx(x-1))/(x-1)^2# which simplifies to #u'=(-2)/(x-1)^2# also #v=x^-3# and so #v'=-3x^-4# #y=(u-v)^4# and so we get #y'=4(u-v)^3(u'-v')# through the chain rule. substituting we get; #y'=4(2/(x-1) - x^-3)^3 ((-2)/(x-1)^2+3x^-4)# Answer link Related questions What is the Chain Rule for derivatives? How do you find the derivative of #y= 6cos(x^2)# ? How do you find the derivative of #y=6 cos(x^3+3)# ? How do you find the derivative of #y=e^(x^2)# ? How do you find the derivative of #y=ln(sin(x))# ? How do you find the derivative of #y=ln(e^x+3)# ? How do you find the derivative of #y=tan(5x)# ? How do you find the derivative of #y= (4x-x^2)^10# ? How do you find the derivative of #y= (x^2+3x+5)^(1/4)# ? How do you find the derivative of #y= ((1+x)/(1-x))^3# ? See all questions in Chain Rule Impact of this question 1365 views around the world You can reuse this answer Creative Commons License