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A small ball with mass 2.50 kg is mounted on one end of a rod 0.750 m long and of negligible mass. The system rotates in a horizontal circle about the other end of the rod at 4900 rev/min.
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A small ball with mass 2.50 kg is mounted on one end of a rod 0.750 m long and of negligible mass. The system rotates in a horizontal circle about the other end of the rod at 4900 rev/min.

User John Marshall
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1 Answer

3 votes

Answer:

1.40625 kg-m^2

Step-by-step explanation:

Supposing we have to calculate rotational moment of inertia

Given:

Mass of the ball m= 2.50 kg

Length of the rod, L= 0.78 m

The system rotates in a horizontal circle about the other end of the rod

The constant angular velocity of the system, ω= 5010 rev/min

The rotational inertia of system is equal to rotational inertia of the the ball about other end of the rod because the rod is mass-less


I_(sys)= mL^2= 2.50* 0.75^2

=1.40625 kg-m^2

m= mass of the ball and L= length of the ball

User DutchKevv
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