19. If I'm rotating a loop of wire over a magnetic field, such that is the angle between the B-field and the area vec- tor of the loop, at which point is the magnitude of the induce potential difference across the loop maximized? The image shows the loop rotating so the area vector on the right is represented as the circle-dot coming towards you. is expressed in radians. 0 A. B. C. D. when 0 = π 플 when 0 = when 0 = The current is always the same A B O A 6
19. If I'm rotating a loop of wire over a magnetic field, such that is the angle between the B-field and the area vec- tor of the loop, at which point is the magnitude of the induce potential difference across the loop maximized? The image shows the loop rotating so the area vector on the right is represented as the circle-dot coming towards you. is expressed in radians. 0 A. B. C. D. when 0 = π 플 when 0 = when 0 = The current is always the same A B O A 6
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Transcribed Image Text:19.
If I'm rotating a loop of wire over a magnetic field, such
that is the angle between the B-field and the area vec-
tor of the loop, at which point is the magnitude of the
induce potential difference across the loop maximized?
The image shows the loop rotating so the area vector on
the right is represented as the circle-dot coming towards
you. is expressed in radians.
A.
B.
C.
D.
when 0 = T
when 0
플
when 0
4
The current is always the same
A
102
O A
102
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