1540470959-Boundary_Value_Problems_and_Partial_Differential_Equations__Powers

18 Chapter 0 Ordinary Differential Equations

Figure 2 Mass–spring–damper system with an external force.

from rest, with an external sinusoidal force (see Fig. 2) is described by this
initial value problem:

d^2 u

dt^2

+bdu

dt

+ω^2 u=f 0 cos(μt),

u( 0 )= 0 ,

du
dt(^0 )=^0.
See the Section 1 example on the mass–spring–damper system. The coeffi-
cientf 0 is proportional to the magnitude of the force. There are three impor-
tant cases.

b= 0 ,μ=ω:undamped, no resonance. The form of the trial solution is

up(t)=Acos(μt)+Bsin(μt).

Substitution and simple algebra lead to the particular solution

u 0 (t)=ω (^2) −f^0 μ 2 cos(μt)
(that is,B=0).Thegeneralsolutionofthedifferentialequationis
u(t)= f^0
ω^2 −μ^2
cos(μt)+c 1 cos(ωt)+c 2 sin(ωt).
Applying the initial conditions determinesc 1 andc 2. Finally, the solution of
the initial value problem is
u(t)= f^0
ω^2 −μ^2

(

cos(μt)−cos(ωt)

)

.