The magnet is pushed away from the solenoid. What will be the magnetic field direction inside the coil? Just write your answer as Left to right or Right to Left. i. Right to left Write the Lenz's Law in Elețtromagnetic Induction. Make sure that you have clearly understood the concept of Lenz's law. ii. When the magnet is pushed away from the coil, what do you think the magnetic field strength (magnetic flux) in the coil's loop? Is it increasing or decreasing? iii.

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C) A bar magnet is close to a solenoid, as shown in the figure.
Left
Right
S
N
Left
Right
The magnet is pushed away from the solenoid. What will be the magnetic field
direction inside the coil? Just write your answer as Left to right or Right to Left.
i.
Right to left
Write the Lenz's Law in Eleptromagnetic Induction. Make sure that you have
clearly understood the concept of Lenz's law.
ii.
When the magnet is pushed away from the coil, what do you think the magnetic
field strength (magnetic flux) in the coil's loop? Is it increasing or decreasing?
iii.
Now refer to part ii of this question and think about the current direction produced
in the coil, and the magnetic flux produced (by induced current in the coil's loop).
Once you get the idea of Lenz's Law (in the electromagnetic induction), what do
you think of the direction of current in the wire (bottom of the figure)? Right to
left or left to the right? You can just write Right to Left or Left to Right.
iv.
O Focus
Transcribed Image Text:C) A bar magnet is close to a solenoid, as shown in the figure. Left Right S N Left Right The magnet is pushed away from the solenoid. What will be the magnetic field direction inside the coil? Just write your answer as Left to right or Right to Left. i. Right to left Write the Lenz's Law in Eleptromagnetic Induction. Make sure that you have clearly understood the concept of Lenz's law. ii. When the magnet is pushed away from the coil, what do you think the magnetic field strength (magnetic flux) in the coil's loop? Is it increasing or decreasing? iii. Now refer to part ii of this question and think about the current direction produced in the coil, and the magnetic flux produced (by induced current in the coil's loop). Once you get the idea of Lenz's Law (in the electromagnetic induction), what do you think of the direction of current in the wire (bottom of the figure)? Right to left or left to the right? You can just write Right to Left or Left to Right. iv. O Focus
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