The figure shows a current-conducting ring of wire whose diameter is d = 5.3 cm. A current of 1.3 A flows through the ring in the direction indicated in the figure. The ring is connected to one end of a spring with a constant of 133 N / m. When the ring is as shown n figure, the spring is in its equilibrium length, € . Determine the deformation of the spring Af when a magnetic field of magnitude B = 0.7 T is applied parallel to the plane of the ring, as in the figure. Select one: to. 1.81e-4 m b. 0.114 m c. 0.00228 m d. 5.70e-4 m
The figure shows a current-conducting ring of wire whose diameter is d = 5.3 cm. A current of 1.3 A flows through the ring in the direction indicated in the figure. The ring is connected to one end of a spring with a constant of 133 N / m. When the ring is as shown n figure, the spring is in its equilibrium length, € . Determine the deformation of the spring Af when a magnetic field of magnitude B = 0.7 T is applied parallel to the plane of the ring, as in the figure. Select one: to. 1.81e-4 m b. 0.114 m c. 0.00228 m d. 5.70e-4 m
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Transcribed Image Text:The figure shows a current-conducting ring of wire whose diameter is d = 5.3 cm. A current of 1.3 A flows through the ring in the
direction indicated in the figure. The ring is connected to one end of a spring with a constant of 133 N / m. When the ring is as shown
in figure, the spring is in its equilibrium length, {. Determine the deformation of the spring Ae when a magnetic field of magnitude
B = 0.7 T is applied parallel to the plane of the ring, as in the figure.
Select one:
to. 1.81e-4 m
b. 0.114 m
c. 0.00228 m
d. 5.70e-4 m
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