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You are given a straight piece of conductor that is 5.5 cm long and moves in a region of uniform magnetic field of 1.7 T along the z-direction. If the conductor is oriented alon…

You are given a straight piece of conductor that is 5.5 cm long and moves in a region of uniform magnetic field of 1.7 T along the z-direction. If the conductor is oriented alon…
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You are given a straight piece of conductor that is 5.5 cm long and moves in a region of uniform magnetic field of 1.7 T along the z-direction. If the conductor is oriented along the x-axis and moves in the y-direction with a velocity of 4.0 m/s, find the magnitude of induced voltage that will be produced between the ends of this moving conductor.

User Gondo
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1 Answer

3 votes

Answer:

e=0.374V

Step-by-step explanation:

the induced voltage is the work done per unit of charge. Hence we have


\epsilon=(W)/(q)=(FL)/(q)=(qvBLsin\theta)/(q)

however, the angle between the piece of conductor and the field is 0°. Hence


\epsilon=vBL=(4.0(m)/(s))(1.7T)(0.055m)=0.374V

THE INDUCED VOLTAGE IS 0.374V

hope this helps!!

User Solomon Bothwell
by
8.7k points
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