# Classifications of PDE and boundary conditions

### From Thermal-FluidsPedia

## Classification of PDEs

A partial differential equation (PDE) is an equation of a function and its partial derivatives. In general, a PDE is classified by its linearity or nonlinearity, and by its order. Its order is considered by its highest derivative. A general second order PDE for two independent variables, η and ζ, is

This equation is linear if all the coefficients (A, B, C, D, E, F and G) are a function of η and ζ, a constant, or zero. If they are a function of Φ or any of its derivatives, then the PDE is nonlinear. A partial differential equation is called quasi-linear if it is linear in the highest derivatives. In eq. (2), this means that A, B and C are a function of η and ζ, a constant, or zero. If a differential equation is quasilinear, it can be classified as an elliptic (*A**C* − *B*^{2} > 0), parabolic (*A**C* − *B*^{2} = 0) or hyperbolic (*A**C* − *B*^{2} < 0) equation.

*See Main Article* Classification of PDEs

### Classification of Boundary Conditions

*See Main Article* Classification of boundary conditions