Assuming a magnetic field changes uniformly from 0.700 T to 0.400 T in the next 1.200 s. If the coil has 50 turns with a total resistance of the coil is 0.350 Ohm with cross-sectional area of 1.0 m^2, Compute (a) the induced emf in the coil and (b) the magnitude of the induced current. O (a) 10.0 V (b) 35.7 Ohm O (a) 12.0 V (b) 64.30hm ((a) 6.0 V (b) 35.7 Ohm O (a) 12.0 V (b) 35.7 Ohm
Assuming a magnetic field changes uniformly from 0.700 T to 0.400 T in the next 1.200 s. If the coil has 50 turns with a total resistance of the coil is 0.350 Ohm with cross-sectional area of 1.0 m^2, Compute (a) the induced emf in the coil and (b) the magnitude of the induced current. O (a) 10.0 V (b) 35.7 Ohm O (a) 12.0 V (b) 64.30hm ((a) 6.0 V (b) 35.7 Ohm O (a) 12.0 V (b) 35.7 Ohm
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Transcribed Image Text:Assuming a magnetic field changes uniformly from 0.700 T to 0.400 T in the
next 1.200 s. If the coil has 50 turns with a total resistance of the coil is
0.350 Ohm with cross-sectional area of 1.0 m^2, Compute (a) the induced
emf in the coil and (b) the magnitude of the induced current.
(a) 10.0 V (b) 35.7 Ohm
O (a) 12.0 V (b) 64.30hm
((a) 6.0 V (b) 35.7 Ohm
O (a) 12.0 V (b) 35.7 Ohm
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