A wire loop of area 1.5 × 103 m² consists of 20 turns. A magnetic field that changes in magnitude given in the direction perpendicular to the wire loop. When To = 0, the magnitude of the magnetic field is Bo = 0.05 T. At time T = 0.10 seconds, the magnitude of the magnetic field increases to B = 0.06 T. (a) What is the average induced EMF in the time interval To to T? (b) If this time the magnitude of the magnetic field from To to T is reversed from B₁ = 0.06 T becomes B = 0.05 T, what is the average induced EMF in this time interval?|
A wire loop of area 1.5 × 103 m² consists of 20 turns. A magnetic field that changes in magnitude given in the direction perpendicular to the wire loop. When To = 0, the magnitude of the magnetic field is Bo = 0.05 T. At time T = 0.10 seconds, the magnitude of the magnetic field increases to B = 0.06 T. (a) What is the average induced EMF in the time interval To to T? (b) If this time the magnitude of the magnetic field from To to T is reversed from B₁ = 0.06 T becomes B = 0.05 T, what is the average induced EMF in this time interval?|
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Transcribed Image Text:A wire loop of area 1.5 × 103 m² consists of 20 turns. A magnetic field that changes in magnitude given
in the direction perpendicular to the wire loop. When To = 0, the magnitude of the magnetic field is
Bo = 0.05 T. At time T = 0.10 seconds, the magnitude of the magnetic field increases to B = 0.06 T.
(a) What is the average induced EMF in the time interval To to T?
(b) If this time the magnitude of the magnetic field from To to T is reversed from B₁ = 0.06 T becomes
B = 0.05 T, what is the average induced EMF in this time interval?|
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