Ordinary Differential Equations:Cheat Sheet/Second Order Inhomogeneous Ordinary Differential Equations
General Form
[edit | edit source], where is a polynomial differential operator of degree with constant coefficients.
General Form of the Solution
[edit | edit source]General solution is of the form
where
is called the complimentary solution, and is the solution of associated homogenous equation, .
is called the particular solution, obtained by solving
Methods to find Complimentary Solution
[edit | edit source]Methods to solve for complimentary solution is discussed in detail in the article Second Order Homogeneous Ordinary Differential Equations.
Methods to find Particular Solution
[edit | edit source]Guessing method or method of undetermined coefficients
[edit | edit source]Choose appropriate y_p (x) with respect to g(x) from table below:
Find , equate coefficients of terms and find the constants and/or and/or . If it leads to an undeterminable situation, put until it’s solvable.
Variation of parameters
[edit | edit source]This method is applicable for inhomogeneous ODE with variable coefficients in one variable.
Suppose two linearly independent solutions of the ODE are known. Then
Solving by Laplace Transforms
[edit | edit source]When initial conditions are given,
- Find Laplace Transform of either sides (See notes in earlier chapter for few common transforms)
- Isolate F(s)
- Split R.H.S. into partial fractions
- Find inverse Laplace Transforms.
Using Convolutions
[edit | edit source]While solving by Laplace Transforms, if finally is of the form </math>g(s)h(s)</math>, use property of convolutions that
and hence .