530 CHAPTER 12 • FOURIER SERIES AND THE LAPLACE TRANSFORM
--------------------------r------
s = U(t)
-~--- ---·-------~·(a) System in static equilibrium. (b) System in motion.
Figure 12 .17 The spring- mass system.byF1 = mg,where g is the acceleration of gravity. The next force to be considered is the
spring force acting on the mass and directed upward if the spring is stretched
and downward if it is compressed. It obeys Hooke's law,F2 = ks,where s is the amount the spring is stretched when s > 0 and is the amount it
is compressed wheu s < O.
When the system is in static equilibrium and the spring is stretched by the
amount so, the resultant of the spring force and the gravitational force is zero,
which is expressed by the equationmg-kso = 0.
We let s = U (t) denote the displacement from static equilibrium with the pos-
itive s direction pointed downward, as indicated in Figure 12 .17(b), and write
the spring force asF2 = -k (so+ U (t)] = -ks 0 - kU (t).
The resultant force FR isFR= Fr + F2 =mg - kso - kU (t) = -kU (t) - (12-16)