Answers
1 . A —The acceleration of the gear is found by taking the second derivative of the angular position
equation:
Thus, the angular acceleration of the gear is constant at –8.8 rad/s^2 .2 . D —Conservation of angular momentum predicts that the angular velocity will decrease as the
moment of inertia increases when the child walks away from the center toward the perimeter of the
platform. Kinetic energy is not conserved because work is done in changing the shape of the child-
platform system as the child walks to the outer edge.
3 . E —First of all, the sphere does not lose energy to friction because it is rolling without slipping.
Second, the block has only translational kinetic energy , while the sphere has the samevalue of translational kinetic energy PLUS rotational kinetic energy as well: .While moving up the incline, both block and sphere transfer kinetic energy to gravitational potential
energy. However, all of this gravitational potential energy comes exclusively from the block’s
translational kinetic energy, slowing it down more than the sphere, which has rotational kinetic energy
to surrender to gravitational potential energy. Thus, the sphere leaves the incline at a higher velocity
and travels farther than the block.4 . C —Using Newton’s second law applied to rotational dynamics, we get