Wires 1 and 2 carrying currents i1 and i2 respectively are inclined at an angle θ to each other. What is the force on a small element dl of wire 2 at a distance of r from wire 1 (as shown in figure) due to the magnetic field of wire 1

                                       

(a) μ02πri1i2dl tanθ                              (b) μ02πri1i2dl sinθ

(c) μ02πri1i2dl cosθ                               (d) μ04πri1i2dl sinθ

Subtopic:  Force between Current Carrying Wires |
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A conducting loop carrying a current I is placed in a uniform magnetic field pointing into the plane of the paper as shown. The loop will have a tendency to

                                    

(1) Contract                                       

(2) Expand 

(3) Move towards +ve x -axis               

(4) Move towards -ve x -axis

Subtopic:  Current Carrying Loop: Force & Torque |
 74%
From NCERT
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A current-carrying loop is placed in a uniform magnetic field in four different orientations, \(\mathrm{I, II, III} \) & \( \mathrm{IV.}\) The decreasing order of potential energy is :
              

I. 
II. 
III. 
IV. 

1. \(\mathrm{I > III > II > IV }     \)
2. \(\mathrm{I > II >III > IV}\)
3. \(\mathrm{I > IV > II > III   }\)
4. \(\mathrm{III > IV > I > II}\)

 

Subtopic:  Current Carrying Loop: Force & Torque |
 66%
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Two insulated rings, one of a slightly smaller diameter than the other, are suspended along their common diameter as shown. Initially, the planes of the rings are mutually perpendicular. What happens when a steady current is set up in each of them?

 

1. the two rings rotate into a common plane.
2. the inner ring oscillates about its initial position.
3. the inner ring stays stationary while the outer one moves into the plane of the inner ring.
4. the outer ring stays stationary while the inner one moves into the plane of the outer ring.

Subtopic:  Current Carrying Loop: Force & Torque |
 54%
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A charge \(Q\) is uniformly distributed on a ring of radius \(R\) made of an insulating material. If the ring rotates about the axis passing through its centre and normal to the plane of the ring with constant angular speed \(\omega\), then what will be the magnitude of the magnetic moment of the ring?
1. \(Q \omega R^{2}\)
2. \(\frac{1}{2} Q \omega R^{2}\)
3. \(Q \omega^{2} R\)
4. \(\frac{1}{2} Q\omega^{2} R\)

Subtopic:  Magnetic Moment |
 82%
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What is the net force on the square coil ?

             

(1) 25×10-7N moving towards wire

(2) 25×10-7N moving away from wire

(3) 35×10-7N moving towards wire

(4) 35×10-7N moving away from wire

Subtopic:  Lorentz Force |
 71%
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Two long parallel copper wires carry currents of \(5\) A each in opposite directions. If the wires are separated by a distance of \(0.5\) m, then the force between the two wires will be:
1. \(10^{-5} ~\text{N} \), attractive
2. \(10^{-5}~\text{N} \), repulsive
3. \(2 \times 10^{-5}~\text{N} \), attractive 
4. \(2 \times 10^{-5} ~\text{N} \), repulsive
Subtopic:  Force between Current Carrying Wires |
 82%
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What is the relation between voltage sensitivity \((\sigma_v)\) and current sensitivity \((\sigma_i)\) of a moving coil galvanometer? (Resistance of Galvanometer = \(G\))
1. \(\frac{\sigma_{i}}{G} = \sigma_{v}\)
2. \(\frac{\sigma_{v}}{G} =\sigma_{i}\)
3. \(\frac{G}{\sigma_{v}} =\sigma_{i}\)
4. \(\frac{G}{\sigma_{i}} =\sigma_{v}\)
Subtopic:  Moving Coil Galvanometer |
 73%
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Two galvanometers A and B require 3mA and 5mA respectively to produce the same deflection of 10 divisions. Then

(1) A is more sensitive than B

(2) B is more sensitive than A

(3) A and B are equally sensitive

(4) Sensitiveness of B is 5/3 times that of A

Subtopic:  Moving Coil Galvanometer |
 76%
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There long straight wires A, B and C are carrying current as shown figure. Then the resultant force on B is directed 

                          

(1) Towards A

(2) Towards C

(3) Perpendicular to the plane of paper and outward

(4) Perpendicular to the plane of paper and inward

Subtopic:  Force between Current Carrying Wires |
 80%
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