How do you differentiate #f(x) = (e^x-1)/(x-e^x)# using the quotient rule? Calculus Basic Differentiation Rules Quotient Rule 1 Answer Narad T. Feb 9, 2017 The answer is #f'(x)=(xe^x-2e^x+1)/(x-e^x)^2# Explanation: We use #(u/v)'=(u'v-uv')/v^2# Here, #f(x)=(e^x-1)/(x-e^x)# #u=e^x-1#, #=>#, #u'=e^x# #v=x-e^x#, #=>#, #v'=1-e^x# #f'(x)=(e^x(x-e^x)-(e^x-1)(1-e^x))/(x-e^x)^2# #=(xe^x-(e^x)^2+(e^x)^2-e^x+1-e^x)/((x-e^x)^2)# #=(xe^x-2e^x+1)/(x-e^x)^2# Answer link Related questions What is the Quotient Rule for derivatives? How do I use the quotient rule to find the derivative? How do you prove the quotient rule? How do you use the quotient rule to differentiate #y=(2x^4-3x)/(4x-1)#? How do you use the quotient rule to differentiate #y=cos(x)/ln(x)#? How do you use the quotient rule to find the derivative of #y=tan(x)# ? How do you use the quotient rule to find the derivative of #y=x/(x^2+1)# ? How do you use the quotient rule to find the derivative of #y=(e^x+1)/(e^x-1)# ? How do you use the quotient rule to find the derivative of #y=(x-sqrt(x))/(x^(1/3))# ? How do you use the quotient rule to find the derivative of #y=x/(3+e^x)# ? See all questions in Quotient Rule Impact of this question 1323 views around the world You can reuse this answer Creative Commons License