Angular Kinetics 6

Let,

M = 80 kg be the mass of the man,

v = 3 m/s be the initial velocity of the man,

m = 160 kg be the mass of the platform,

r = 5 m be the radius of the platform,

I = mr²/2 be the platform's moment of inertia,

ω1 (to be calculated) be the angular velocity after he jumps on,

ω2 (to be calculated) be the angular velocity after he reaches the center.

Before he jumps on the platform his angular momentum

L = Mvr

This momentum will be preserved in both part a) and b)

a)

The angular momentum of the man plus the platform equals the initial L:

Mr²ω1 + Iω1 = L

ω1 = L/(Mr² + I)

= Mvr/(Mr² + mr²/2) =

= Mv/(Mr + mr/2) =

80×3/(80×5 + 160×5/2) = 0.3 s^-1

b) After he reaches the center, he still has some angular momentum due to the

size of his body. But I suspect we are supposed to ignore that.

So the angular momentum of the platform alone is to equal the initial L.

Iω1 = L

ω1 = L/I

= Mvr/(mr²/2)

= 2Mv/mr

= 2×80×3/160×5 = 0.6 s^-1