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$$ax^2\frac{\partial^2 v}{\partial x^2}+bx\frac{\partial v}{\partial x}+c\frac{\partial^2 v}{\partial y^2}=10x^2+9x+6$$ where $a,b,c$ are constants,

initial conditions: $v(x,0)=0,v(0,y)=0$

i tried separation method but can't get particular solution using this initial conditions

sorry guys,for error

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    I have tried to fix up your equation.2011-06-29
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    Try looking for a solution independent of y. This reduces your problem to a fairly easy ODE.2011-06-30
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    Are there some conditions on constsants? The Laplace equation is one thing and the wave equation is another.2011-07-01
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    @gfes: a solution independent of $y$ is not compatible with the boundary conditions. The first boundary condition requires $v(x,0) = 0$. If $v$ is independent of $y$ then $v$ is 0 every where. Which is incompatible with the equation.2011-07-01
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    @anks: This ought to be an amazing question, but you introduce an awful I.C. $y(0,y)=0$ makes this question impossible to solve in most cases and becomes uninteresting. Maybe you are better to modify either the I.C.s or the inhomogeneous term so that this question becomes possible to solve, otherwise I can only provide this disappointing answer to you.2012-08-30
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    @anks: According to http://math.stackexchange.com/posts/48496/revisions, the coefficients of the PDE has been changed by you, but the fact comes out to that the former version is solvable while the latter version is not solvable in most cases. Does the PDE really $a\dfrac{\partial^2 v}{\partial x^2}+b\dfrac{\partial v}{\partial x}+c\dfrac{\partial^2 v}{\partial y^2}=10x^2+9x+6$ or really $ax^2\dfrac{\partial^2 v}{\partial x^2}+bx\dfrac{\partial v}{\partial x}+c\dfrac{\partial^2 v}{\partial y^2}=10x^2+9x+6$ ?2013-04-10

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