A current-carrying wire is placed in a uniform magnetic field in the shape of the curve \(y= \alpha \sin \left({\pi x \over L}\right),~0 \le x \le2L.\) 
What will be the force acting on the wire?
                   

1. \(iBL \over \pi\) 2. \(iBL \pi\)
3. \(2iBL \) 4. zero

Subtopic:  Lorentz Force |
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 A long straight wire along the z-axis carries a current I in the negative z-direction. The magnetic field vector B at a point having coordinates (x, y) in the z = 0 plane is :

1. μ0I(yi^-xj^)2π(x2+y2)                 

2. μ0I(xi^+yj^)2π(x2+y2)

3. μ0I(xj^-yi^)2π(x2+y2)                 

4. μ0I(xi^-yj^)2π(x2+y2)

Subtopic:  Magnetic Field due to various cases |
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A circular coil is in the \(y\text-z\) plane with its centre at the origin. The coil carries a constant current. Assuming the direction of the magnetic field at \(x= -25\) cm to be positive, which of the following graphs shows the variation of the magnetic field along the \(x\text-\)axis?
1.   2.
3. 4.
Subtopic:  Magnetic Field due to various cases |
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The ratio of the magnetic field at the centre of a current carrying circular wire and the magnetic field at the centre of a square coil made from the same length of wire will be

(a) π242                             (b) π282

(c) π22                             (d) π42 

Subtopic:  Magnetic Field due to various cases |
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A particle of charge \(+q\) and mass \(m\) moving under the influence of a uniform electric field \(E\hat i\) and a uniform magnetic field \(\mathrm B\hat k\) follows a trajectory from \(P\) to \(Q\) as shown in the figure. The velocities at \(P\) and \(Q\) are \(v\hat i\) and \(-2v\hat j\) respectively. Which of the following statement(s) is/are correct?

       
1. \(E=\frac{3}{4} \frac{{mv}^2}{{qa}}\).
2. Rate of work done by electric field at \(P\) is \(\frac{3}{4} \frac{{mv}^3}{a}\).
3. Rate of work done by both fields at \(Q\) is zero.
4. All of the above.
Subtopic:  Lorentz Force |
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Figure shows a square loop ABCD with edge length a. The resistance of the wire ABC is r

and that of ADC is 2r. The value of magnetic field at the centre of the loop assuming

uniform wire is

                   

1. 2μ0i3πa                                 

2. 2μ0i3πa

3. 2μ0iπa                                   

4. 2μ0iπa   

Subtopic:  Magnetic Field due to various cases |
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For a positively charged particle moving in a  x- plane initially along the x-axis, there is a sudden change in its path due to the presence of electric and/or magnetic fields beyond P. The curved path is shown in the x-y plane and is found to be non-circular. Which one of the following combinations is possible

1.  E=0; B=bi^+ck^                 

2.  E=ai^; B=ck^+ai^

3. E=0;B=cj^+bk^                   

4.  E=ai^;B=ck^+bj^

Subtopic:  Lorentz Force |
 54%
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Figure shows the cross-sectional view of the partially hollow cylindrical conductor with inner radius 'R' and outer radius '2R' carrying uniformly distributed current along it's axis. The magnetic induction at point 'P' at a distance 3R2 from the axis of the cylinder will be:

                     

1. Zero                               

2. 5μ0i72πR

3. 7μ0i18πR                             

4.  5μoi36πR

Subtopic:  Magnetic Field due to various cases |
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A long wire AB is placed on a table. Another wire PQ of mass 1.0 g and length 50 cm is set to slide on two rails PS and QR. A current of 50A is passed through the wires. At what distance above AB, will the wire PQ be in equilibrium

                     

1. 25 mm                           

2. 50 mm

3. 70 mm                           

4. 100 mm

Subtopic:  Lorentz Force |
 59%
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A particle with charge \(q\), moving with a momentum \(p\), enters a uniform magnetic field normally. The magnetic field has magnitude \(B\) and is confined to a region of width \(d\), where \(d< \frac{p}{Bq}.\) The particle is deflected by an angle \(\theta\) in crossing the field, then:

       

1.  \(\sin \theta=\frac{Bqd}{p}\) 2. \(\sin \theta=\frac{p}{Bqd}\)
3. \(\sin \theta=\frac{Bp}{qd}\) 4. \(\sin \theta=\frac{pd}{Bq}\)
Subtopic:  Lorentz Force |
 65%
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