A magnet is placed in between two wire loops (Loop 1 and Loop 2) and moved to the right, which induces a current in Loops 1 and 2. The current in Loop 2 is shown. Assume there is no emf in either loop except the one induced by the motion of the magnet. Loop 2 Loop 1 1 2 Which statement about the magnet and Loop 1 is TRUE? ○ The north pole of the magnet is in position 1 and the current in Loop 1 is the opposite direction as the current in Loop 2. ○ The north pole of the magnet is in position 2 and the current in Loop 1 is the opposite direction as the current in Loop 2. O The north pole of the magnet is in position 2 and the current in Loop 1 is the same direction as the current in Loop 2. O The north pole of the magnet is in position 1 and the current in Loop 1 is the same direction as the current in Loop 2.

A magnet is placed in between two wire loops (Loop 1 and Loop 2) and moved to the right, which induces a current in Loops 1 and 2. The current in Loop 2 is shown. Assume there is no emf in either loop except the one induced by the motion of the magnet. Loop 2 Loop 1 1 2 Which statement about the magnet and Loop 1 is TRUE? ○ The north pole of the magnet is in position 1 and the current in Loop 1 is the opposite direction as the current in Loop 2. ○ The north pole of the magnet is in position 2 and the current in Loop 1 is the opposite direction as the current in Loop 2. O The north pole of the magnet is in position 2 and the current in Loop 1 is the same direction as the current in Loop 2. O The north pole of the magnet is in position 1 and the current in Loop 1 is the same direction as the current in Loop 2.

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Question

A magnet is placed in between two wire loops (Loop 1 and Loop 2) and moved to the right, which
induces a current in Loops 1 and 2. The current in Loop 2 is shown. Assume there is no emf in either
loop except the one induced by the motion of the magnet.
Loop 2
Loop 1
1 2
Which statement about the magnet and Loop 1 is TRUE?
O The north pole of the magnet is in position 1 and the current in Loop 1 is the opposite direction as
the current in Loop 2.
○ The north pole of the magnet is in position 2 and the current in Loop 1 is the opposite direction as
the current in Loop 2.
O The north pole of the magnet is in position 2 and the current in Loop 1 is the same direction as the
current in Loop 2.
○ The north pole of the magnet is in position 1 and the current in Loop 1 is the same direction as the
current in Loop 2.

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