6. A metal loop of radius 10 cm and resistance 200 N is attached to an axle with a handle as shown in the diagram below. The north pole of the magnet is placed below the loop and the handle turned so that the loop rotates counterclockwise with a constant angular speed w = 20 rad/s. time 1 time 2 B=0.1T (a) When the loop is rotated between time 1 and time 2, what is the direction (looking down on the loop) of the induced current (CW or CCW or 0)? Please explain your answer in a short and concise major. (b) If the time between time 1 and time 2 is 10 seconds, calculate the induced current in the metal loop.
6. A metal loop of radius 10 cm and resistance 200 N is attached to an axle with a handle as shown in the diagram below. The north pole of the magnet is placed below the loop and the handle turned so that the loop rotates counterclockwise with a constant angular speed w = 20 rad/s. time 1 time 2 B=0.1T (a) When the loop is rotated between time 1 and time 2, what is the direction (looking down on the loop) of the induced current (CW or CCW or 0)? Please explain your answer in a short and concise major. (b) If the time between time 1 and time 2 is 10 seconds, calculate the induced current in the metal loop.
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Transcribed Image Text:6. A metal loop of radius 10 cm and resistance 200 N is attached to an axle with a handle as shown in the
diagram below. The north pole of the magnet is placed below the loop and the handle turned so that the loop
rotates counterclockwise with a constant angular speed w = 20 rad/s.
time 1
time 2
B= 0.1T
(a)
When the loop is rotated between time 1 and time 2, what is the direction (looking down on the
loop) of the induced current (CW or CCW or 0)? Please explain your answer in a short and concise
major.
(b)
If the time between time 1 and time 2 is 10 seconds, calculate the induced current in the metal
loop.
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