218 Ordinary Differential EquationsSince b 2 ( x) = -2e-^3 x is of the form (7) and r = -3 is a root of the auxiliary
equation of order k = 1, a particular solution yp 2 (x) of (12) will have the form
Yp 2 (x) = x^1 e-^3 x(C) = Cxe-^3 x.
Differentiating, we get y~ 2 (x) = C(-3x + l)e-^3 x and y~ 2 (x) = C(9x - 6)e-^3 x.
Substituting into the DE (12), we find C must satisfy
C(9x - 6)e-^3 x + 3C(-3x + l)e-^3 x = -2e-^3 x or - 3Ce-^3 x = -2e-^3 x.
2 2 -3x
Hence, C =
3
and Yp 2 (x) = 3xe.
Adding the particular solutions Yp,(x) and yp 2 (x) of the two nonhomoge-
neous linear differential equations (11) and (12), we find that a particular
solution of the given nonhomogeneous differential equation (10) isand, consequently, the general solution of (10) isEXERCISES 4.4Determine the general solution of the following nonhomogeneous
linear differential equations.1. y(^4 ) - 6y(^3 ) + 13y(^2 ) - 12y(ll + 4y = 2ex - 4e^2 x
- y(^4 ) + 4y(^2 ) = 24x^2 - 6x + 14 + 32 cos 2x
- y(^4 ) + 2y(^2 ) + y = 3 + cos2x
4. y(^4 ) - 3y(^3 ) + 3y(^2 ) - y(ll = 6x - 20 - 120x^2 ex
- y(^3 ) - 6y(^2 ) + 21y(ll - 26y = 36e^2 x sin3x
- y(^3 ) + y(^2 ) - y(l) - y = (2x^2 + 4x + 8) cosx + (6x^2 + 8x + 12) sinx
- y(^6 ) - 12y(^5 ) + 63y(^4 ) - 184y(^3 ) + 315y(^2 ) - 300y(ll + 125y =