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The term ‘magnetic flux density’ is also known as:

A. Magnetic field strength
B. Magnetic flux
C. Magnetic permeability
D. Magnetic induction

Answer: Magnetic induction

The magnetic field lines inside a bar magnet are directed:

A. From the north pole to the south pole
B. From the south pole to the north pole
C. In a circular path around the magnet
D. Radially outward from the center

Answer: From the north pole to the south pole

The direction of the induced EMF in a coil is given by:

A. Lenz's Law
B. Faraday's Law
C. Ampere's Law
D. Gauss's Law

Answer: Lenz's Law

The unit of magnetic flux is:

A. Weber
B. Tesla
C. Henry
D. Ohm

Answer: Weber

The force on a current-carrying conductor in a magnetic field is maximum when:

A. The angle between the conductor and the magnetic field is 90 degrees
B. The angle between the conductor and the magnetic field is 0 degrees
C. The magnetic field strength is zero
D. The current is zero

Answer: The angle between the conductor and the magnetic field is 90 degrees

The magnetic field inside a long, straight solenoid is:

A. Uniform and parallel
B. Concentrated at the ends
C. Weak and irregular
D. Zero

Answer: Uniform and parallel

The phenomenon of electromagnetic induction is primarily described by:

A. Faraday's Law
B. Ampere's Law
C. Maxwell's Equations
D. Ohm's Law

Answer: Faraday's Law

The induced EMF in a coil is inversely proportional to:

A. The number of turns of the coil
B. The rate of change of magnetic flux
C. The magnetic field strength
D. The resistance of the coil

Answer: The number of turns of the coil

What is the principle behind the operation of an electric generator?

A. Electromagnetic induction
B. Static electricity
C. Electrostatic induction
D. Magnetic polarization

Answer: Electromagnetic induction