A loop is kept so that its center lies at the origin of the coordinate system. A magnetic field has the induction `B` pointing along `Z` axis as shown in the figure

A loop is kept so that its center lies at the origin of the pointing along Z -axis as shown in the figure

A conducting loop of resistance R and radius r has its center at the origin of the co-ordinate system in a magnetic field of induction B . When it is rotated about Y -axis through 90^(@) , net charge flown in the coil is directly proportional to

The magnetic field Intensity at the point o of a loop carrying current i as shown in the figure is

A circular ring carries a uniformly distributed positive charge and lies in the xy plane with center at the origin of the cooredinate system. If at a point (0,0,z) the electric field is E, then which of the following graphs is correct?

A dipole is placed at origin of coordinate system as shown in figure, find the electric field at point P (0, y) .

A rectangular loop of length l and breadth b is situated in a uniform magnetic field of induction B with its plane perpendicular to the field as shown in the figure . Calculate the rate of change of magnetic flux and the induced emf if the loop is rotated with constant angular velocity omega (a) about an axis passing through the centre and perpendicular to the loop. (b) about an axis passing through the centre parallel to the breadth through angle 180^(@) .

An electric dipole coincides on Z-axis and its mid-point is on origin of the coordinates system. The electric field at an axial point at a distance z from origin is E_((z)) and electric field at an equatorial point at a distance y from origin is E_((y)) . Here, z = y gt gt a , so |(E_((z)))/(E_((y)))| = ... 1 4 3 2

A circular loop of radius a having n turns is kept in a horizontal plane. A uniform magnetic field B exists in a vertical direction as shown in Fig.313. Find the emf induced in the loop if the loop is roated with a uniform angualr velocity omega about (a) an axis passing through the center and perendicular to the plane of the loop. (b) the diameter.

A conducting loop is pulled with a constant velocity towards a region of unifrom maganetic field of induction B as shown in the figure. Then the current involved in the loop is (d gt r)

A square metal wire loop of side 20 cm and resistance 2Omega is moved with a constant velcoity v_(0) in a uniform magnetic field of induction B = 1 Wb//m^(2) as shown in the figure. The magnetic field lines are perpendicular to the plane of the loop. The loop is connected to a network of resistance each of value 5Omega . The resistances of the lead wires BF and AE are negligible. What should be the speed of the loop, so as to have a steady current of 2 mA in the loop? Give the direction of current in the loop.