Answer to Question #296627 in Differential Equations for Tobias Felix

Let us determine the general solution of the differential equation

"3x(xy-2)dx + (x^3-2y)dy = 0."

Taking into account that

"\\frac{\\partial( 3x(xy-2))}{\\partial y} =3x^2=\\frac{\\partial (x^3-2y)}{\\partial x},"

we conclude that this equation is exact, and hence there is a function "u=u(x,y)" such that

"\\frac{\\partial u}{\\partial x}=3x(xy-2)=3x^2y-6x,\\ \\ \n\\frac{\\partial u}{\\partial y}=x^3-2y."

It follows that "u=x^3y-3x^2+c(y)," and thus

"\\frac{\\partial u}{\\partial y}=x^3+c'(y)=x^3-2y."

Therefore, "c'(y)=-2y," and thus "c(y)=-y^2+C."

We conclude that the general solution is of the differential equation

"x^3y-3x^2-y^2=C."