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The database contains 327 equations (9 equations are awaiting activation).

Equation data
Category:4. Nonlinear Partial Differential Equations
Subcategory:4.4. Other Second-Order Equations
Equation(s):$\displaystyle \left[f(x)\frac{\partial w}{\partial y}+
\frac{\partial^2 w}{\partial x\partial y}\right]\frac{\partial^2 w}{\partial z^2}+
\left[g(z)\frac{\partial w}{\partial y}-
\frac{\partial^2 w}{\partial y\partial z}\right]\frac{\partial^2 w}{\partial x\partial z}=0$.\hfill\break
The transformation
U=\frac{\partial w}{\partial z}, \quad
P=\exp\left(\int g(z)\,dz\right), \quad
Q=\frac{\partial w}{\partial y}\exp\left(\int f(x)\,dx\right),
leads to the equation
P\frac{\partial U}{\partial P}+Q\frac{\partial U}{\partial Q}=0.
Its solution is $\,\displaystyle {U(P,Q)=\Psi\left(\frac{Q}{P}\right)}$.
Hence, we have a first order PDE:
\frac{\partial w}{\partial z}=
\Phi\left(\frac{\partial w}{\partial y}\exp\left(\int f(x)\,dx-\int g(z)\,dz\right)\right),
where $\Phi$ is an arbitrary function.
Remarks:This result was obtained in co-authorship with L.V. Linchuk,
using generalized group analysis. The main idea of the method 
is outlined at EqWorld (\slash 
ru/solutions/interesting.htm, in Russian).
Novelty:New equation(s) & solution(s) & transformation(s)
Author/Contributor's Details
Last name:Zaitsev
First name:Valentin
Middle(s) name:Feodorovich
Statistic information
Submission date:Wed 09 Jan 2008 13:58
Edits by author:0

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