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Two infinitely long conducting parallel rails are connected through a capacitor C as shown in the figure. A conductor of length l is moved with constant speed

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A negative charge is given to a nonconducting loop and the loop is rotated in the plane of paper about its centre as shown in figure. The magnetic field produced by the ring affects a small magnet placed above the ring in the same plane:

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Figure shows a bar magnet and a long straight wire W, carrying current into the plane of paper. Point P is the point of intersection of axis of magnet and the line of shortest distance between magnet and the wire. If P is the midpoint of the magnet, then which of the following statements is correct ?

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An electric current i subscript 1 end subscript can flow either direction through loop (1) and induced current i subscript 2 end subscript n loop (2). Positive i1 is when current is from 'a' to 'b' in loop (1) and positive i subscript 2 end subscript is when the current is from 'c' to 'd' in loop (2) In an experiment, the graph of i subscript 2 end subscript against time 't' is as shown below


Which one(s) of the following graphs could have caused i subscript 2 end subscript to behave as give above.

An electric current i subscript 1 end subscript can flow either direction through loop (1) and induced current i subscript 2 end subscript n loop (2). Positive i1 is when current is from 'a' to 'b' in loop (1) and positive i subscript 2 end subscript is when the current is from 'c' to 'd' in loop (2) In an experiment, the graph of i subscript 2 end subscript against time 't' is as shown below


Which one(s) of the following graphs could have caused i subscript 2 end subscript to behave as give above.

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In the arrangement shown in given figure current from A to B is increasing in magnitude. Induced current in the loop will

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A vertical bar magnet is dropped from position on the axis of a fixed metallic coil as shown in fig - I. In fig - II the magnet is fixed and horizontal coil is dropped. The acceleration of the magnet and coil are a subscript 1 end subscript text  and  end text a subscript 2 end subscript respectively

A vertical bar magnet is dropped from position on the axis of a fixed metallic coil as shown in fig - I. In fig - II the magnet is fixed and horizontal coil is dropped. The acceleration of the magnet and coil are a subscript 1 end subscript text  and  end text a subscript 2 end subscript respectively

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A square coil ABCD is placed in x-y plane with its centre at origin. A long straight wire, passing through origin, carries a current in negative z-direction. Current in this wire increases with time. The induced current in the coil is :

A square coil ABCD is placed in x-y plane with its centre at origin. A long straight wire, passing through origin, carries a current in negative z-direction. Current in this wire increases with time. The induced current in the coil is :

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A rectangular loop with a sliding connector of length 10 cm is situated in uniform magnetic field perpendicular to plane of loop. The magnetic induction is 0.1 tesla and resistance of connector (R) is 1 ohm. The sides AB and CD have resistances 2 ohm and 3 ohm respectively. Find the current in the connector during its motion with constant velocity one metre/sec.

A rectangular loop with a sliding connector of length 10 cm is situated in uniform magnetic field perpendicular to plane of loop. The magnetic induction is 0.1 tesla and resistance of connector (R) is 1 ohm. The sides AB and CD have resistances 2 ohm and 3 ohm respectively. Find the current in the connector during its motion with constant velocity one metre/sec.

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A long straight wire is parallel to one edge as in fig. If the current in the long wire is varies in time as I equals I subscript 0 end subscript e to the power of negative t divided by tau end exponent comma what will be the induced emf in the loop?

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A square wire loop of 10.0 cm side lies at right angles to a uniform magnetic field of 20T. A 10 V light bulb is in a series with the loop as shown in the fig. The magnetic field is decreasing steadily to zero over a time interval Dt. The bulb will shine with full brightness if Dt is equal to

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A wire loop is placed in a region of time varying magnetic field which is oriented orthogonally to the plane of the loop as shown in the figure. The graph shows the magnetic field variation as the function of time. Assume the positive emf is the one which drives a current in the clockwise direction and seen by the observer in the direction of B. Which of the following graphs best represents the induced emf as a function of time.

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a conducting loop of radius R is present in a uniform magnetic field B perpendicular the plane of the ring. If radius R varies as a function of time ‘t’, as R equals R subscript 0 end subscript plus t The e.m.f induced in the loop is

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Two identical point charges are placed at a separation of l. P is a point on the line joining the charges, at a distance x from any one charge. The field at P is E. E is plotted against x for values of x from close to zero to slightly less than l. Which of the following best represents the resulting curve?

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A metal ball of radius R is placed concentrically inside a hollow metal sphere of inner radius 2R and outer radius 3R. The ball is given a charge +2Q and the hollow sphere a total charge – Q. The electrostatic potential energy of this system is

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Two spherical, nonconducting, and very thin shells of uniformly distributed positive charge Q and radius d are located a distance 10d from each other. A positive point charge q is placed inside one of the shells at a distance d/2 from the center, on the line connecting the centers of the two shells, as shown in the figure. What is the net force on the charge q?

Two spherical, nonconducting, and very thin shells of uniformly distributed positive charge Q and radius d are located a distance 10d from each other. A positive point charge q is placed inside one of the shells at a distance d/2 from the center, on the line connecting the centers of the two shells, as shown in the figure. What is the net force on the charge q?

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An infinite, uniformly charged sheet with surface charge density s cuts through a spherical Gaussian surface of radius R at a distance x from its center, as shown in the figure. The electric flux capital phi through the Gaussian surface is

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