A system consists of a disk rotating on a frictionless axle and a piece of clay moving toward it, as shown in the figure above. The outside edge of the disk is moving at a linear speed v, and the clay is moving at speed v/2. The clay sticks to the outside edge of the disk. How does the angular momentum of the system after the clay sticks compare to the angular momentum of the system before the clay sticks, and what is an explanation for the comparison?

A disk of known radius and rotational inertia can rotate with minimal friction in a horizontal plane around its fixed central axis. The disk is given an initial angular velocity, and then a second identical disk is dropped on top of the first. Which of the following procedures would best determine the relationship between initial and final angular momentum of the two disk system?

The wheel on a vehicle has a rotational inertia of 3.0 kg∙m². At the instant the wheel has a counterclockwise angular velocity of 5.0 rad/s, an average counterclockwise torque of 6.0 N∙m is applied, and continues for 2.0 seconds. What is the change in angular momentum of the wheel?

A long rod is suspended by a frictionless bearing near its top. A lump of clay is projected from the right, collides with the block and sticks to it. Which one of the following statements is correct about the clay and rod system for this collision?