Figure 5. When the bar mognet is moving to the right. towara the loop. the elecromagnetic fieid (emf) induced in the loop produces an induced current in the direction shown. The magnetic field due to this induced current in the loop produces a magnetic field thar exerts a force on the bar magnet opposing its motion to the right. S 1. Using alternative statement of Lenz's Law, find the direction of the induced current in the loop shown in Figure 5 if the magnet is moving to the left (away from the loop). Show your solution/drawing.

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Figure 5. When the bar mognet is moving to the right. toward the loop, the
elecromagnetic field (emf) induced in the loop produces an induced current
in the direction shown. The magnetic field due to this induced current in the
loop produces a magnetic field that exerts a force on the bar magnet
opposing its motion to the right.
N
1. Using alternative statement of Lenz's Law, find the direction of the induced
current in the loop shown in Figure 5 if the magnet is moving to the left (away from the loop).
Show your solution/drawing.
Transcribed Image Text:Figure 5. When the bar mognet is moving to the right. toward the loop, the elecromagnetic field (emf) induced in the loop produces an induced current in the direction shown. The magnetic field due to this induced current in the loop produces a magnetic field that exerts a force on the bar magnet opposing its motion to the right. N 1. Using alternative statement of Lenz's Law, find the direction of the induced current in the loop shown in Figure 5 if the magnet is moving to the left (away from the loop). Show your solution/drawing.
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