The magnitude of a magnetic field that passes through a stationary wire loop (consists of 50 turns and has an area of 0.15 m²) varies according to the plot shown above. On the other hand, the direction of the field is kept the same all through out. Note that the field changes within three equal time intervals (Os - 3s, 3s - 6s, 6s - 9s) and that the magnetic field is oriented parallel to the normal of the loop. (a) For each interval, determine the induced emf. (b) Suppose, the wire has a resistance of 0.50 N. Determine the induced current for the first and third intervals.
The magnitude of a magnetic field that passes through a stationary wire loop (consists of 50 turns and has an area of 0.15 m²) varies according to the plot shown above. On the other hand, the direction of the field is kept the same all through out. Note that the field changes within three equal time intervals (Os - 3s, 3s - 6s, 6s - 9s) and that the magnetic field is oriented parallel to the normal of the loop. (a) For each interval, determine the induced emf. (b) Suppose, the wire has a resistance of 0.50 N. Determine the induced current for the first and third intervals.
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Transcribed Image Text:The magnitude of a magnetic field that passes through a stationary wire loop (consists of 50 turns and has an area of 0.15
m2) varies according to the plot shown above. On the other hand, the direction of the field is kept the same all through out. Note
that the field changes within three equal time intervals (Os - 3s, 3s - 6s, 6s - 9s) and that the magnetic field is oriented parallel to
the normal of the loop.
(a) For each interval, determine the induced emf.
(b) Suppose, the wire has a resistance of 0.50 N. Determine the induced current for the first and third intervals.
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