A conducting coil held coaxially near one pole of a cylindrical permanent magnet as shown in the figure, if made to vibrate up and down simple harmonically with a frequency f= 100 Hz and an amplitude a = 1.0 mm, much smaller than the linear dimensions of the magnet, the voltage induced in the coil has amplitude Vo = 57 V. If the coil is held stationary at the mean position of the oscillations and a current I= 200 mA is made to flow through it, how much force will it experience? Ano: IVo far %3D %3D
A conducting coil held coaxially near one pole of a cylindrical permanent magnet as shown in the figure, if made to vibrate up and down simple harmonically with a frequency f= 100 Hz and an amplitude a = 1.0 mm, much smaller than the linear dimensions of the magnet, the voltage induced in the coil has amplitude Vo = 57 V. If the coil is held stationary at the mean position of the oscillations and a current I= 200 mA is made to flow through it, how much force will it experience? Ano: IVo far %3D %3D
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:A. A conducting coil held coaxially near one pole of a cylindrical permanent
magnet as shown in the figure, if made to vibrate up and down simple
harmonically with a frequency f= 100 Hz and an amplitude a = 1.0 mm,
much smaller than the linear dimensions of the magnet, the voltage
induced in the coil has amplitude Vo = 5n V. If the coil is held stationary
at the mean position of the oscillations and a current I = 200 mA is made
to flow through it, how much force will it experience? Ad: I Vo = 5N
2far
%3D
%3D
non unit longth carries a
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