A metallic loop is placed in a magnetic field. If a current is passed through it, then
1. The ring will feel a force of attraction
2. The ring will feel a force of repulsion
3. It will move to and fro about its centre of gravity
4. None of these
A straight wire carrying a current i is turned into a circular loop. If the magnitude of the magnetic moment associated with it in M.K.S. unit is M, the length of wire will be
1. 2.
3. 4.
A 100 turns coil shown in figure carries a current of 2 amp in a magnetic field . The torque acting on the coil is
1. 0.32 Nm tending to rotate the side AD out of the page
2. 0.32 Nm tending to rotate the side AD into the page
3. 0.0032 Nm tending to rotate the side AD out of the page
4. 0.0032 Nm tending to rotate the side AD into the page
A current of 5 amperes is flowing in a wire of length 1.5 meters. A force of 7.5 N acts on it when it is placed in a uniform magnetic field of 2 Tesla. The angle between the magnetic field and the direction of the current is:
1. 30 2. 45°
3. 60° 4. 90°
The field normal to the plane of a coil of n turns and radius r which carries a current i is measured on the axis of the coil at a small distance h from the centre of the coil. This is smaller than the field at the centre by the fraction
1.
2.
3.
4.
A proton of mass and charge is projected with a speed of at an angle of to the X-axis. If a uniform magnetic field of 0.104 Tesla is applied along Y-axis, the path of the proton is:
1. A circle of radius = 0.2 m and time period
2. A circle of radius = 0.1 m and time period
3. A helix of radius = 0.1 m and time period
4. A helix of radius = 0.2 m and time period
The magnetic field at the centre of a circular coil of radius r is times that due to a long straight wire at a distance r from it, for equal currents. Figure here shows three cases : in all cases the circular part has radius r and straight ones are infinitely long. For same current the B field at the centre P in cases 1, 2, 3 have the ratio
1.
2.
3.
4.
Two straight long conductors AOB and COD are perpendicular to each other and carry currents and . The magnitude of the magnetic induction at a point P at a distance a from the point O in a direction perpendicular to the plane ACBD is:
1. 2.
3. 4.
The charge on a particle Y is double the charge on particle X. These two particles X and Y after being accelerated through the same potential difference enter a region of the uniform magnetic field and describe circular paths of radii and respectively. The ratio of the mass of X to that of Y is:
1.
2.
3.
4.