Applications of Systems of Equations 485
function. Dividing by mf(t) and letting y 1 = y and y 2 = y', we can rewrite
(9) as the following equivalent first-order system
(10)
I f'(t) C g , f(t)
Y2 = -(2 f(t) + m )y2 - f(t) sm Y1 + mf(t).
s
I
I
I
I
Vertical 1
I
y
e (t)
~
bob of
massm
Figure 10.24 Variable Length Pendulum
Foucault Pendulum The French astronomer and physicist, Jean Bernard
Leon Foucault is, perhaps, best remembered as the first person to demonstrate
the rotation of the earth without using a point of reference outside the earth-
such as stars or the sun. In 1851, Foucault suspended a 62 pound ball on a
220 feet long steel wire from the dome of the Pantheon in Paris. A pin
protruded from the bottom of the ball and was adjusted to draw a mark
through a circle of wet sand beneath the ball. Foucault pulled the ball to
one side of the circle of sand and released it. With each swing the pendulum
made a mark in the sand and appeared to rotate in a clockwise direction.
(The pendulum only appears to change its plane of oscillation while swinging.
It is actually the floor under the pendulum that moves counterclockwise due
to the rotation of the earth.) Thus, Foucault demonstrated his prediction
that the pendulum would revolve approximately 270° in a 24 hour period and
proved that the earth revolved. Foucault presented an intuitive explanation
for the motion of his pendulum.
When damping is absent or compensated for, the equations of motion of a
Foucault pendulum are
x^11 = 2wy' sin </> - g:
(11)
y II = -^2 WX /·,1, Slll<y--gy
f