A pendulum has a mass of m=2kg and a 1.0 m long string that is pulled...
A pendulum has a mass of m=2kg and a 1.0 m long string that is pulled back to an angle theta collides elastically with a mass M= 2kg, which is on the surface with a coefficent of friction of u=0.2. The mass M then slides fo delta x = 1.5 m before coming to rest. What is the initial angle theta?
Homework Answers
a = - fk / m = - uk M g / M = - uk g = - 1.96 m/s^2
vf^2 - vi^2 = 2 a d
0^2 - v^2 = 2(-1.96)(1.5)
v = 2.43 m/s
for same mass elastic collision,
velocity exchanges.
now applying energy conservation,
m v^2 /2 = m g h
h = 2.43^2 / (2 x 9.81) = 0.3 m
h = L (1 - cos(theta))
0.3 = 1 (1 - cos(theta))
theta = 45.6 deg
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