A rectangular loop of wire with sides 0.283 and 0.424 m lies in a plane perpendicular to a constant magnetic field (see part a of the drawing). The magnetic field has a magnitude of 0.872 T and is directed parallel to the normal of the loop's surface. In a time of 0.264 s. one-half of the loop is then folded back onto the other half, as indicated in part b of the drawing. Determine the magnitude of the average emf induced in the loop. Number i × × × × × × x × x x x x x x Units х (a) x (b) × ×
A rectangular loop of wire with sides 0.283 and 0.424 m lies in a plane perpendicular to a constant magnetic field (see part a of the drawing). The magnetic field has a magnitude of 0.872 T and is directed parallel to the normal of the loop's surface. In a time of 0.264 s. one-half of the loop is then folded back onto the other half, as indicated in part b of the drawing. Determine the magnitude of the average emf induced in the loop. Number i × × × × × × x × x x x x x x Units х (a) x (b) × ×
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Transcribed Image Text:A rectangular loop of wire with sides 0.283 and 0.424 m lies in a plane perpendicular to a constant magnetic field (see part a of the
drawing). The magnetic field has a magnitude of 0.872 T and is directed parallel to the normal of the loop's surface. In a time of 0.264 s.
one-half of the loop is then folded back onto the other half, as indicated in part b of the drawing. Determine the magnitude of the
average emf induced in the loop.
Number i
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