A rectangular loop of wire containing a high resistance voltmeter has corners initially at (a 2, b 2, 0), (a 2, b 2, 0), (a 2,b 2, 0), and (a 2,b 2, 0) The loop begins to rotate about the x axis at constant angular velocity , with the first named corner moving in the a z direction at t 0 Assume a uniform magnetic flux density B B 0 a z Determine the induced emf in the rotating loop and specify the direction of the current

Question: A rectangular loop of wire containing a high-resistance voltmeter has corners initially at (a/2, b/2, 0), (a/2, b/2, 0), (a/2,b/2, 0), and (a/2,b/2, 0). The

A rectangular loop of wire containing a high-resistance voltmeter has corners initially at (a/2, b/2, 0), (−a/2, b/2, 0), (−a/2,−b/2, 0), and (a/2,−b/2, 0). The loop begins to rotate about the x axis at constant angular velocity ω, with the first-named corner moving in the a_z direction at t = 0. Assume a uniform magnetic flux density B = B₀a_z. Determine the induced emf in the rotating loop and specify the direction of the current.

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