How do I find the derivative of # y = (arcsin(x))^-1#? Calculus Differentiating Trigonometric Functions Differentiating Inverse Trigonometric Functions 1 Answer Bill K. Jun 26, 2015 #dy/dx=-(arcsin(x))^(-2)* 1/sqrt{1-x^2}=-1/(arcsin^{2}(x)sqrt{1-x^2})# Explanation: Use the Chain Rule: #d/dx(f(g(x)))=f'(g(x))*g'(x)# with #f(x)=x^{-1}# and #g(x)=arcsin(x)#. Since #f'(x)=-x^{-2}=-1/x^2# and #g'(x)=1/sqrt{1-x^2}#, it follows that #d/dx((arcsin(x))^{-1})=-(arcsin(x))^(-2)* 1/sqrt{1-x^2}# #=-1/(arcsin^{2}(x)sqrt{1-x^2})# Answer link Related questions What is the derivative of #f(x)=sin^-1(x)# ? What is the derivative of #f(x)=cos^-1(x)# ? What is the derivative of #f(x)=tan^-1(x)# ? What is the derivative of #f(x)=sec^-1(x)# ? What is the derivative of #f(x)=csc^-1(x)# ? What is the derivative of #f(x)=cot^-1(x)# ? What is the derivative of #f(x)=(cos^-1(x))/x# ? What is the derivative of #f(x)=tan^-1(e^x)# ? What is the derivative of #f(x)=cos^-1(x^3)# ? What is the derivative of #f(x)=ln(sin^-1(x))# ? See all questions in Differentiating Inverse Trigonometric Functions Impact of this question 1603 views around the world You can reuse this answer Creative Commons License