A conducting wire loop lies in the plane of the screen, in a region where there's a uniform magnetic field directed into the screen. The loop has radius a and resistance R. Starting at t = 0, the field changes as a function of time, B(t) = B0 e-ct where c and B0 are constants.(a) Write an expression for the magnetic flux through the loop as a function of time.(b) What is the magnitude of the emf induced in the loop?(c) Calculate the power output of the loop as a function of time.(d) Use your answer from part (c) to obtain the total energy dissipated in the resistance of the loop as the field goes from B = B0 at t = 0 to B = 0 at large times. If you couldn't get (c), you can receive partial credit by describing a solution to this part assuming some function P(t) for the power as a function of time. X X XX XX X XXXX XX)XX XX X X X x X x X

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Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter1: Introduction And Vectors

Section: Chapter Questions

Problem 2CQ

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A conducting wire loop lies in the plane of the screen, in a region where there's a uniform magnetic field directed into the screen. The loop has radius a and resistance R. Starting at t = 0, the field changes as a function of time, B(t) = B₀ e^-ct where c and B₀ are constants.

(a) Write an expression for the magnetic flux through the loop as a function of time.

(b) What is the magnitude of the emf induced in the loop?

(d) Use your answer from part (c) to obtain the total energy dissipated in the resistance of the loop as the field goes from B = B₀ at t = 0 to B = 0 at large times. If you couldn't get (c), you can receive partial credit by describing a solution to this part assuming some function P(t) for the power as a function of time.

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