The square loop shown in FIGURE P30 53 moves into a 0 80 T magnetic field at a constant speed of 10 m s The loop has a resistance of 0 10 , and it enters the field at t 0 s a Find the induced current in the loop as a function of time Give your answer as a graph of I versus t from t 0 s to t 0 020 s...

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The square loop shown in FIGURE P30.53 moves into a

The square loop shown in FIGURE P30.53 moves into a 0.80 T magnetic field at a constant speed of 10

Question:

The square loop shown in FIGURE P30.53 moves into a 0.80 T magnetic field at a constant speed of 10 m/s. The loop has a resistance of 0.10 Ω, and it enters the field at t = 0 s.

a. Find the induced current in the loop as a function of time. Give your answer as a graph of I versus t from t = 0 s to t = 0.020 s.b. What is the maximum current? What is the position of the loop when the current is maximum?

Transcribed Image Text:

!x x X 10 ст 10 сm X xx хх X XX В %3D 0.80 T x X 10 m/s X x X X X X FIGURE P30.53 x x XX x X

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Model Assume the field changes abruptly at the boundary and is uniform Visualize As the loop enters …View the full answer

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