. The following picture shows a LONG conductor carrying current I. Nearby there is a conducting rectangular loop with sides a = 8 cm and b = 4 cm. The loop also carries a resistance R= 10 ohms. The curent is constant and has a value of I = 6.0 Amperes. The loop is moving away to the right with a constant velocity, V = 2 m/s. Answer the following questions at the instant of time t when the left edge of the loop is at position x" as shown below Use the coordinate system , x to the right, y into the board, z upward g) Show the time rate of change in the magnetic flux is do„(x) . dt [(q + x) - x h) Use Faradays Law to determine the induced EMF at x = 3cm i) Use Ohms Law to detemine the current in the loop when x = 3cm i) Use Lenz's Law to determine which direction does the current flow? (Clock Wise or Counter Clock Wise). Explain.

. The following picture shows a LONG conductor carrying current I. Nearby there is a conducting rectangular loop with sides a = 8 cm and b = 4 cm. The loop also carries a resistance R= 10 ohms. The curent is constant and has a value of I = 6.0 Amperes. The loop is moving away to the right with a constant velocity, V = 2 m/s. Answer the following questions at the instant of time t when the left edge of the loop is at position x" as shown below Use the coordinate system , x to the right, y into the board, z upward g) Show the time rate of change in the magnetic flux is do„(x) . dt [(q + x) - x h) Use Faradays Law to determine the induced EMF at x = 3cm i) Use Ohms Law to detemine the current in the loop when x = 3cm i) Use Lenz's Law to determine which direction does the current flow? (Clock Wise or Counter Clock Wise). Explain.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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