The figure below shows a wire carrying a current I = 13.5 A to the right. Below the wire is a small metal washer with a radius of a = 0.250 cm. The washer, oriented vertically, is initially touching the wire, and is then dropped from rest. The washer falls a distance h = 0.525 m before touching a table below. You may assume that the wire is very thin, and that the metal ring of the washer is thin compared to its radius. You may also assume the magnetic field is nearly constant over the area of the washer and equal to the magnetic field at the washer's center. A horizontal wire carrying current I to the right is above the surface of a table. A metal washer is oriented vertically between the wire and the table, with its face in the plane of the page. The top of the washer is in contact with the bottom side of the wire. The figure also shows the washer when it has fallen a distance h to the table. h is the distance from center to center of the washer in its initial and final positions. (a) What is the magnitude of the average induced emf in the washer (in nV) over the time interval between its release and the moment it hits the table? nV