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Question

A system consists of two identical small balls of mass 2 kg each connected to the two ends of a 1 m long light rod. The system is rotating about a fixed axis through the centre of the rod and perpendicular to it at an angular speed of 9 rad/s. An impulsive force of average magnitude 10 N acts on one of the masses in the direction of its velocity for 0.20 s. Calculate the new angular velocity of the system.

A
9 rad/s
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B
8 rad/s
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C
10 rad/s
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D
5 rad/s
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Solution

The correct option is C 10 rad/s
Given,
Mass of identical balls, m=2 kg
Length of rod (l)=1 m
Angular speed of rod w=9 rad/s
Impulsive force F=10 N
As we know, torque
τ=dLdt
where τ=F×d
i.e τ.dt=dL
or τ.Δt=ΔL
or (F.d).Δt=(LfLi)(1)

As we know, L=Iω
Initial angular momentum Li=Iω1
I = m(l2)2+m(l2)2=ml22
=2×122=1 kg - m2
Thus, Li=1×9=9 kgm2s
Final angular momentum Lf=Iω2
Lf=1×ω2
Now, from eq (1):
(F.d)Δt=LfLi
10×(12)×0.2=ω29
ω2=10 rads

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