A conducting rod AC of length 4l is rotated with angular velocity ω about a point O in a uniform magnetic field B directed into the plane of the paper. If AO = l and OC = 3l, then the potential difference between A and C, VA - VC is

1. 2Bωl2

2. Bωl2

3. 3Bωl2

4. 4Bωl2

Subtopic:  Motional emf |
 75%
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A flexible wire bent in the form of a circle is placed in a uniform magnetic field perpendicular to the plane of the circle. The radius \(r\) of the circle changes with time \(t\) as shown in the figure. The graph of the magnitude of induced emf \(|\varepsilon|\) versus time \(t\) in the circle is represented by:

             

1. 2.
3. 4.
Subtopic:  Faraday's Law & Lenz Law |
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A cylindrical space of radius \(R\) is filled with a uniform magnetic induction \(B\) parallel to the axis of the cylinder. If \(B\) changes at a constant rate, the graph showing the variation of the induced electric field with distance \(r\) from the axis of the cylinder is:

                     

1. 2.
3. 4.
Subtopic:  Motional emf |
 71%
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A long conducting wire AH is moved over a conducting triangular wire CDE with a constant v in a uniform magnetic field B directed into the plane of the paper. Resistance per unit length of each wire is r. Then

1. A clockwise induced current will flow in the closed-loop.

2. No induced current will flow in the closed-loop.

3. Induced current in the closed-loop alternately changes its direction.

4. An anticlockwise induced, the current will flow in the closed-loop.

Subtopic:  Faraday's Law & Lenz Law |
 68%
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The figure below shows a square loop of side 0.5 m and resistance 10 Ω. The magnetic field has a magnitude B = 1.0 T. The work done in pulling the loop out of the field slowly and uniformly in 2 seconds is

1. 3.125×10-3J

2. 6.25×10-4J

3. 1.25×10-2J

4. 5.0 ×10-4J

Subtopic:  Motional emf |
 55%
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The wires \(\mathrm{P}_1\mathrm{Q}_1\) and \(\mathrm{P}_2\mathrm{Q}_2\) are made to slide on the rails with the same speed \(10~\text{m/s}\). If \(\mathrm{P}_1\mathrm{Q}_1\) moves towards the left and \(\mathrm{P}_2\mathrm{Q}_2\) moves towards the right, then the electric current in the \(19~\Omega\) resistor is:

      

1. zero
2. \(10~\text{mA}\)
3. \(0.1~\text{mA}\)
4. \(1~\text{mA}\)

Subtopic:  Motional emf |
 74%
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The triangular circuit ABC shown in the figure is in a very long solenoid of radius R such that the plane of the triangular circuit is normal to the length of the solenoid. If the magnetic field changes at the rate dB/dt, then the induced emf in the triangular circuit is

1. R3dBdt

2. R2dBdt

3. RdBdt

4. RdBdt

Subtopic:  Faraday's Law & Lenz Law |
 76%
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If conducting triangle is pulled out with a uniform velocity from the uniform magnetic field, as shown in the figure, then which graph of induced current versus time is possible?
       

1.             2. 
3.             4. 

Subtopic:  Motional emf |
 51%
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Two circular coils of different radii lie in the same plane with their centres at same point i.e. inner coil is surrounded by a bigger outer coil. If the current in the outer coil is clockwise and increasing with time, then induced current in the inner loop is

1. Anticlockwise

2. Zero

3. Clockwise

4. Depends on resistances

Subtopic:  Faraday's Law & Lenz Law |
 86%
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A field of 0.2 T acts perpendicular to a coil of area 100cm2 with 50 turns. If the coil is removed within 0.1s from the field, then the minimum emf induced in the coil is

1. 1 V

2. 2 V

3. 3 V

4. 4 V

Subtopic:  Motional emf |
 88%
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