How do you find the general solution to #dy/dx+e^(x+y)=0#? Calculus Applications of Definite Integrals Solving Separable Differential Equations 1 Answer Eddie Jul 24, 2016 #y = ln ( 1/(e^x + C) )# Explanation: #dy/dx+e^(x+y)=0# this is separable #dy/dx= - e^(x+y)# #dy/dx= - e^x e^y# #e^(-y) dy/dx= - e^x# #int\ e^(-y) dy/dx \ dx=int - e^x \ dx# #int\ e^(-y) \ dy=- int e^x \ dx# #-e^(-y) =- e^x + C# #e^(-y) = e^x + C# #e^(y) = 1/(e^x + C)# #y = ln ( 1/(e^x + C) )# Answer link Related questions How do you solve separable differential equations? How do you solve separable first-order differential equations? How do you solve separable differential equations with initial conditions? What are separable differential equations? How do you solve the differential equation #dy/dx=6y^2x#, where #y(1)=1/25# ? How do you solve the differential equation #y'=e^(-y)(2x-4)#, where #y5)=0# ? How do you solve the differential equation #(dy)/dx=e^(y-x)sec(y)(1+x^2)#, where #y(0)=0# ? How do I solve the equation #dy/dt = 2y - 10#? Given the general solution to #t^2y'' - 4ty' + 4y = 0# is #y= c_1t + c_2t^4#, how do I solve the... How do I solve the differential equation #xy'-y=3xy, y_1=0#? See all questions in Solving Separable Differential Equations Impact of this question 8878 views around the world You can reuse this answer Creative Commons License