A flexible conducting ring is placed into a vary- ing magnetic field that points out of the page, as shown. The ring can stretch and compress, so that it maintains its circular shape but the radius can increase or decrease. B out (a) If the magnetic field strength is an increasing function of time, which direction will current flow around the conducting ring? Explain your answer. (b) Assume the ring is compressed (r is decreased over time) while the magnetic field strength is held constant. i. Which direction will current flow around the conducting ring? Explain your answer. ii. Draw a diagram indicating the direction of the magnetic force that acts on the ring, while it is being compressed. Justify your answer.
A flexible conducting ring is placed into a vary- ing magnetic field that points out of the page, as shown. The ring can stretch and compress, so that it maintains its circular shape but the radius can increase or decrease. B out (a) If the magnetic field strength is an increasing function of time, which direction will current flow around the conducting ring? Explain your answer. (b) Assume the ring is compressed (r is decreased over time) while the magnetic field strength is held constant. i. Which direction will current flow around the conducting ring? Explain your answer. ii. Draw a diagram indicating the direction of the magnetic force that acts on the ring, while it is being compressed. Justify your answer.
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11th Edition
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:A flexible conducting ring is placed into a vary-
ing magnetic field that points out of the page,
as shown. The ring can stretch and compress,
so that it maintains its circular shape but the
radius can increase or decrease.
Bout
(a) If the magnetic field strength is an increasing function of time, which direction will current
flow around the conducting ring? Explain your answer.
(b) Assume the ring is compressed (r is decreased over time) while the magnetic field strength
is held constant.
i. Which direction will current flow around the conducting ring? Explain your answer.
ii. Draw a diagram indicating the direction of the magnetic force that acts on the ring,
while it is being compressed. Justify your answer.
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