How do you differentiate #f(t)=1/(t^(-1/2))# using the chain rule? Calculus Basic Differentiation Rules Chain Rule 1 Answer Guilherme N. Jan 2, 2016 We can rename #u=t^(-1/2)# and proceed, following chain rule statement: #(dy)/(dx)=(dy)/(du)(du)/(dx)# Explanation: now, we have #f(t)=1/u=u^-1# #(df(t))/(dt)=-1/u^2(-1/(2t^(3/2)))=1/(((t^(-1/2))^2)(2t^(3/2)))=1/(t^(-1)*2t^(3/2))# #(df(t))/(dt)=1/(2t^(-1+3/2))=1/(2t^(1/2))# 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 1617 views around the world You can reuse this answer Creative Commons License