1. Suppose a baton consists of a metal ball A having a mass of 0.32 kg with a diameter of 0.15 m and another metal ball B with a mass of 0.52 kg and diameter of 0.20m located at each end of a slim rod as shown below. The rod is 1.0 m long. Find the moment of inertia and radius of gyration of the baton about an axis perpendicular to the rod and intersecting at 0.30 m from one end of the rod. Assume that the rod has negligible mass.

 

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the moment of inertia of the body about that axis. The moment of inertia also known as rotational inerfia is the measure ihe resistance of a body to a change in its rotational motion. he larger the moment of inertia of a body, the more difficult it is to change its rotational motion. POINTS TO PONDER Radius of gyration (k) is the distance from an axis of rotation where the mass of a body may be assumed to be concentrated without altering the moment of inertia of the body about that axis. Before solving for the moment of inertia, consider first the shape of the object and its specified axis of rotation. boi Activity 1 Answer the following problems. Write the given, unknown, shape of the object, its axis of rotation and formula to be used in the problem. Show your solution. 1. Suppose a baton consists of a metal ball A having a mass of 0.32 kg with a diameter of 0.15 m and another metal ball B with a mass of 0.52 kg and diameter of 0.20m located at each end of a slim rod as shown below. The rod is 1.0 m long. Find the moment of inertia and radius of gyration of the baton about an axis perpendicular to the rod and intersecting at 0.30 m from one end of the rod. Assume that the rod has negligible mass. axis 1.0 m 2. Sakuragi is spinning a basketball with a radius of 0.15 m on the tip of his finger. Determine the mass of the ball if its moment of inertia is 5.568 x 10-3kg m2. 10