Electromagnetic Induction MCQs With Answers – Part 1 (Class 12 Physics)
GKaim: Measure. Improve. Achieve.

Electromagnetic Induction MCQs with Answers – Part 1 (Class 12 Physics)

Timer: Off
Random: Off

1. Electromagnetic induction mainly refers to the production of ______ in a circuit because the magnetic flux linked with it changes.
ⓐ. magnetic flux with no change
ⓑ. ordinary resistance of the wire
ⓒ. steady current from unchanged flux
ⓓ. induced emf
2. A bar magnet is held fixed near a closed coil connected to a sensitive galvanometer. What is expected after the magnet and coil have both become stationary?
ⓐ. The coil shows induced current at rest
ⓑ. The galvanometer shows no deflection
ⓒ. A steady deflection remains in the galvanometer
ⓓ. A momentary deflection continues without flux change
3. An open conducting loop is moved near a magnet so that the magnetic flux linked with the loop changes. The most suitable conclusion is that
ⓐ. induced current must flow, but induced emf is impossible
ⓑ. neither induced emf nor flux change is possible in an open loop
ⓒ. induced emf may exist without induced current
ⓓ. induced current flows without any need for charge motion
4. In a simple magnet-coil observation, the galvanometer deflects when the magnet is pushed toward the coil and deflects oppositely when the magnet is pulled away. What does the reversal mainly show?
ⓐ. The galvanometer measures only resistance
ⓑ. The induced direction is fixed for every motion
ⓒ. The direction depends on the flux change
ⓓ. The coil changes its material during motion
5. A hand-driven generator produces electrical output when its coil is rotated in a magnetic field. This device is based mainly on
ⓐ. direct conversion of resistance into emf
ⓑ. electromagnetic induction
ⓒ. heating of a resistor by steady current
ⓓ. production of emf by steady flux alone
6. A coil connected to a galvanometer is placed near another coil carrying current. A momentary galvanometer deflection is observed when the current in the nearby coil is switched on. The deflection occurs because
ⓐ. the nearby coil produces a steady field only
ⓑ. a sudden flux change links the second coil
ⓒ. the galvanometer coil changes its own resistance
ⓓ. the secondary flux remains constant during switching
7. For discussing electromagnetic induction in a coil, the most directly relevant prerequisite set is
ⓐ. magnetic field, area, conducting path
ⓑ. current, focal length, and coil area
ⓒ. magnetic flux, density, and liquid depth
ⓓ. magnetic field, resistance, and open gap
8. The phrase induced emf is best understood as
ⓐ. emf due to changing magnetic flux
ⓑ. force on charges without flux change
ⓒ. the current produced by a chemical source
ⓓ. resistance produced by a changing field
9. One setup has a coil and magnet at rest relative to each other. Another setup has the same magnet moving toward the same coil. The second setup is more likely to show induction because
ⓐ. motion makes the magnet field steady everywhere
ⓑ. relative motion changes linked flux
ⓒ. relative motion keeps the linked flux constant
ⓓ. the wire charges stop responding to fields
10. Two observations are made with the same coil and magnet: I. The magnet is moved slowly toward the coil. II. The magnet is moved faster toward the coil through the same path. The better comparison is
ⓐ. both observations must give zero induced emf because the same magnet is used
ⓑ. observation II gives smaller induced emf because magnetic flux cannot change quickly
ⓒ. observation II gives larger induced emf because the flux changes more rapidly
ⓓ. observation I gives larger induced emf because the motion is slower
Subscribe
Notify of
guest
0 Comments
Scroll to Top