A wire loop with a resistance, R = 0.174 Ohms is pulled to the right out of a region with a uniform magnetic field B = 0.468 T that points out of the screen as shown in the diagram below. As is moves, out of the field region, a current is induced, because of the current, there is a magnetic force on the loop. How much force (magnitude only) is required to keep the loop moving at a constant speed of v = 17.0 m/s? The height of the loop, L = 0.189 m. Please give your answer in Newtons.
A wire loop with a resistance, R = 0.174 Ohms is pulled to the right out of a region with a uniform magnetic field B = 0.468 T that points out of the screen as shown in the diagram below. As is moves, out of the field region, a current is induced, because of the current, there is a magnetic force on the loop. How much force (magnitude only) is required to keep the loop moving at a constant speed of v = 17.0 m/s? The height of the loop, L = 0.189 m. Please give your answer in Newtons.
Chapter13: Electromagnetic Induction
Section: Chapter Questions
Problem 69AP: The conducting rod shown in the accompanying figure moves along parallel metal rails that are 25-cm...
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A wire loop with a resistance, R = 0.174 Ohms is pulled to the right out of a region with a uniform magnetic field B = 0.468 T that points out of the screen as shown in the diagram below. As is moves, out of the field region, a current is induced, because of the current, there is a magnetic force on the loop. How much force (magnitude only) is required to keep the loop moving at a constant speed of v = 17.0 m/s? The height of the loop, L = 0.189 m. Please give your answer in Newtons.
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