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The conducting rod of length I in the figure moves B out without friction with velocity v. The magnetic field given in the figure changes as B = (2t + 1)T depending on the time and its direction is towards the R outside of the page plane. At what speed should the rod have to produce a current of I = 0.3 A at t = 1s. (Take R = 6N and l = 1.2 m.)

The conducting rod of length I in the figure moves B out without friction with velocity v. The magnetic field given in the figure changes as B = (2t + 1)T depending on the time and its direction is towards the R outside of the page plane. At what speed should the rod have to produce a current of I = 0.3 A at t = 1s. (Take R = 6N and l = 1.2 m.)

Introductory Circuit Analysis (13th Edition)
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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A 0.75 m/s 0.4 m/s 0.6 m/s 0.3 m/s 0.32 m/s
Transcribed Image Text:A 0.75 m/s 0.4 m/s 0.6 m/s 0.3 m/s 0.32 m/s
10/15 The conducting rod of length l in the figure moves B. without friction with velocity v. The magnetic field given in the figure changes as B = (2t + 1)T depending on the time and its direction is towards the outside of the page plane. At what speed should the rod have to produce a current of I = 0.3 A at t = 1s. (Take R = 60 and l = 1.2 m.)
Transcribed Image Text:10/15 The conducting rod of length l in the figure moves B. without friction with velocity v. The magnetic field given in the figure changes as B = (2t + 1)T depending on the time and its direction is towards the outside of the page plane. At what speed should the rod have to produce a current of I = 0.3 A at t = 1s. (Take R = 60 and l = 1.2 m.)
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