Now solved: The method outlined in can be used for any homogeneous equation. Thatis, the
Chapter 2, Problem 36(choose chapter or problem)
The method outlined in can be used for any homogeneous equation. Thatis, the substitution y = xv(x) transforms a homogeneous equation into a separableequation. The latter equation can be solved by direct integration, and then replacing vby y/x gives the solution to the original equation. In each of 31 through 38:(a) Show that the given equation is homogeneous.(b) Solve the differential equation.(c) Draw a direction field and some integral curves. Are they symmetric with respect tothe origin?. (x2 + 3xy + y2) dx x2 dy = 0
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