A conducting circular loop of wire with radius 0.0300 m and resistance 0.40 Ω sits in a region of spatially uniform magnetic field, as shown in the figure. The magnetic field is directed into the plane of the figure and it changes in time with the expression B(t) = 1.080 T - (0.360 T/s )∙t (here T represents the unit Tesla and t is the time) a) Give the magnetic flux through the loop as a function of time. b) Give the EMF induced in the loop as a function of time. c) Calculate the induced current at time t = 1.0 s. Show the steps that lead to your answers. d) What is the direction of the current in the loop at t = 1.0 s? Explain/justify your answer
A conducting circular loop of wire with radius 0.0300 m and resistance 0.40 Ω sits in a region of spatially uniform magnetic field, as shown in the figure. The magnetic field is directed into the plane of the figure and it changes in time with the expression B(t) = 1.080 T - (0.360 T/s )∙t (here T represents the unit Tesla and t is the time) a) Give the magnetic flux through the loop as a function of time. b) Give the EMF induced in the loop as a function of time. c) Calculate the induced current at time t = 1.0 s. Show the steps that lead to your answers. d) What is the direction of the current in the loop at t = 1.0 s? Explain/justify your answer
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
B(t) = 1.080 T - (0.360 T/s )∙t (here T represents the unit Tesla and t is the time)
a) Give the magnetic flux through the loop as a function of time.
b) Give the EMF induced in the loop as a function of time.
c) Calculate the induced current at time t = 1.0 s. Show the steps that lead to your
answers.
d) What is the direction of the current in the loop at t = 1.0 s? Explain/justify your
answer
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