A small, closely wound coil has N turns, area A, and resistance R. The coil is initially in a uniform magnetic field that has magnitude B and a direction perpendicular to the plane of the loop. The coil is then rapidly pulled out of the field so that the flux through the coil is reduced to zero in time At. Part A What are the magnitude of the average emf Eav and average current Iav induced in the coil? Express your answer in terms of the variables N, A, R, B, and At. ? Eav, Iav = Part B The total charge Q that flows through the coil is given by Q = IayAt. Derive an expression for Q in terms of N, A, B, and R. Note that Q does not depend on At. Express your answer in terms of the variables N, A, R, and B. νΠ ΑΣφ ? Q =

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A small, closely wound coil has N turns, area A, and resistance R. The coil is initially in a uniform magnetic field that has magnitude B and a direction perpendicular to the plane of the loop. The coil is then rapidly pulled out of the field so that the flux through the coil is reduced to zero in time At. Part A What are the magnitude of the average emf Eav and average current Iav induced in the coil? Express your answer in terms of the variables N, A, R, B, and At. ? Eav, Iav = Part B The total charge Q that flows through the coil is given by Q = IavAt. Derive an expression for Q in terms of N, A, B, and R. Note that Q does not depend on At. Express your answer in terms of the variables N, A, R, and B. ΑΣφ ? Q =

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Part C What is Q if N = 150 turns, A = 4.50 cm?, R= 30.0 N, and B=0.200 T? %3D Express your answer with the appropriate units. HA ? Q = Value Units