A7 - Drop a wire loop A single-turn wire loop in the shape of a rectangle measures L wide by 2L tall. The loop is held vertically so it is almost completely inside a region of uniform magnetic field. You can assume the field is zero outside this region, and the bottom of the loop starts outside the region of field. When the loop is released from rest, it starts accelerating down because of gravity, but before it falls completely out of the region of field the loop reaches a constant velocity directed down. O K Open in The width of the loop is L = 60.0 cm, and the resistance of the loop is 0.200 ohms. Use g = 10.0 m/s. Part (a) = Homework Answered Due Mar 19th, 12:15 PM While the loop is dropping through the field (partly in and partly out of the field) in what direction is the induced current in the loop. Note that the magnetic field in the picture is directed out of the screen. The induced current is ... Select an answer and submit. For keyboard navigation, use the up/down arrow keys to select an answer. a zero b clockwise C counterclockwise Answered - Correct! 2 attempts left Your answer Resubmit K 71 Open in Readi Part (b) == Homework Unanswered Due Mar 19th, 12:15 PM The loop has a mass of 15.0 grams, and the strength of the magnetic field is B = 0.200 T. Determine the magnitude of the induced current in the loop when the loop has reached a constant velocity. A Type your numeric answer and submit Unanswered 5 attempts left Part (c) == Submit Homework Unanswered Due Mar 19th, 12:15 PM Calculate the magnitude of the constant velocity reached by the loop as it falls through the field (partly in and partly out of the field). m/s Type your numeric answer and submit * Open in Readin