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Boyce/DiPrima 9 ed, Ch 2.6:
Exact Equations & Integrating Factors
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Elementary Differential Equations and Boundary Value Problems, 9 edition, by William E. Boyce and Richard C. DiPrima, ©2009 by John Wiley & Sons, Inc.
Consider a first order ODE of the form
M(x,y)+N(x,y)y′=0
Suppose there is a function ψ such that
ψx(x,y)=M(x,y), ψy(x,y)= N(x,y)
and such that ψ(x,y) = c defines y = φ(x) implicitly. Then
M(x,y)+N(x,y)y′= ∂ψ +∂ψ dy = d ψ[x,φ(x)]
∂x ∂y dx dx
and hence the original ODE becomes
d [ ]
ψ x,φ(x) =0
dx
Thus ψ(x,y) = c defines a solution implicitly.
In this case, the ODE is said to be exact.
Example 1: Exact Equation
Consider the equation:
2x+y2+2xyy′=0
It is neither linear nor separable, but there is a function φ
such that ∂ϕ =2x+y2 and ∂ϕ =2xy
∂y ∂x
The function that works is ϕ(x,y)= x2 + xy2
Thinking of y as a function of x and calling upon the chain
rule, the differential equation and its solution become
dϕ = d (x2 + xy2) =0⇒ϕ(x,y)= x2 +xy2 =c
dx dx
Theorem 2.6.1
Suppose an ODE can be written in the form
M(x,y)+N(x,y)y′=0 (1)
where the functions M, N, M and N are all continuous in the
y x
rectangular region R: (x, y) ∈ (α, β ) x (γ, δ ). Then Eq. (1) is
an exact differential equation iff
My(x,y)= Nx(x,y), ∀(x,y)∈R (2)
That is, there exists a function ψ satisfying the conditions
ψx(x,y)=M(x,y), ψy(x,y)= N(x,y) (3)
iff M and N satisfy Equation (2).
Example 2: Exact Equation (1 of 3)
Consider the following differential equation.
(ycosx+2xey)+(sinx+x2ey −1)y′=0
Then
M(x,y)= ycosx+2xey, N(x,y)=sinx+x2ey −1
and hence
M (x,y)=cosx+2xey = N (x,y) ⇒ ODE is exact
y x
From Theorem 2.6.1,
ψ (x,y)=M = ycosx+2xey, ψ (x,y)= N =sinx+x2ey −1
x y
Thus
( y ) 2 y
ψ(x,y)=∫ψx(x,y)dx=∫ ycosx+2xe dx= ysinx+x e +C(y)
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