How do you determine dy/dx given #e^cosy=x^3siny#? Calculus Basic Differentiation Rules Implicit Differentiation 1 Answer James Apr 20, 2018 The answer #[dy/dx]=[siny*3x^2]/[e^cosy*siny+x^3*cosy]# Explanation: #e^cosy=x^3*siny# #-e^cosy*siny*(dy/dx)=x^3*cosy*(dy/dx)+siny*3x^2# #e^cosy*siny*(dy/dx)+x^3*cosy*(dy/dx)=siny*3x^2# #[dy/dx][e^cosy*siny+x^3*cosy]=siny*3x^2# #[dy/dx]=[siny*3x^2]/[e^cosy*siny+x^3*cosy]# Answer link Related questions What is implicit differentiation? How do you find the derivative using implicit differentiation? How do you find the second derivative by implicit differentiation? How do you find #y''# by implicit differentiation of #x^3+y^3=1# ? How does implicit differentiation work? How do you use implicit differentiation to find #(d^2y)/dx^2# of #x^3+y^3=1# ? How do you Use implicit differentiation to find the equation of the tangent line to the curve... How do you use implicit differentiation to find #y'# for #sin(xy) = 1#? How do you find the second derivative by implicit differentiation on #x^3y^3=8# ? What is the derivative of #x=y^2#? See all questions in Implicit Differentiation Impact of this question 2037 views around the world You can reuse this answer Creative Commons License