Differential equations Flashcards
f(x) dy/dx + f’(x)y can be written as
d/dx(yf(x))
When are integrating factors used?
when a differential equation can be written in the form dy/dx + Py = Q
where P and Q are functions of x
integrating factor
e^∫P(x) dx
dy/dx α y
dy/dx = ky
dy/dx α 1/y
dy/dx = k/y
When do you use the auxiliary equation method
ad^2y/dx^2 + bdy/dx + cy = 0
auxiliary equation method
- let y = e^mx
- sub y, dy/dx, d^2y/dx^2 into the differential equation
- e^mx>0, factorise to give auxiliary equation
what does the auxiliary equation give ?
- for homogeneous differential equations the roots of the auxiliary equation in the correct form give the general solution
- for non-homogeneous it gives the complementary function (part of the general solution)
Solution from auxiliary equation for two real roots (α and β)
y = Ae^αx + Be^βx
Solution from auxiliary equation for one repeated roots (m)
y = (A+ Bx)e^mx
Solution from auxiliary equation for pure imaginary roots (+- ni)
y = Acosnx + Bsinnx
Solution from auxiliary equation for a complex conjugate pair (p+-qi)
y = e^px(Acosqx + Bsinqx)
how to find a particular integral for a constant on the RHS
- let y = λ
- sub y, dy/dx and d^2y/dx^2 into the differential equation
- solve for λ
how to find the particlar integral for a linear function of x on the RHS
- let y = λx + μ
- sub y, dy/dx and d^2y/dx^2 into the differential equation
- solve for λ and μ (equate coefficients)
how to find the particular integral for a Quadratic function of x on the RHS
- let y = λx^2 + μx + ν
- sub y, dy/dx and d^2y/dx^2 into the differential equation
- solve for λ, μ and ν (equate coefficients)
