A rectangular conductor of area `0.2 m^(2)` is placed in a unifrom magnetic field with a B-vector strenght of 2T with its normal at an angle `30^(@)` . Calculate the magnetic flux linked with the conductor.

A square-shaped coil of side 10 cm is placed in a region of magnetic field 0.2 T such that it makes an angle of 30^(@) with the magnetic field. Calculate the magnetic flux linked with the coil.

A circular disc of radius 0.2 m is placed in a uniform magnetic fied of induction (1)/(pi) ((Wb)/(m^(2))) in such a way that its axis makes an angle of 60^(@) with The magnetic flux linked with the disc is

A reactangular loop of area 0.06 m^(2) is placed in a uniform magnetic field of 0.3T with its plane (i) normal to the field (ii) inclined 30^(@) to the field (iii) parallel to the field. Find the fliux linked with the coil in each case.

A rectangular loop of area 20 cm xx 30 cm is held in a magnetic field of 0.3 T with its plane inclined at (i) 30^(@) to the field (ii) parallel to the field. Find magnetic flux linked with the coil in each case.

A circular loop of radius 10 cm is placed in a region of magnetic field of 0.5 T with its plane parallel to the magnetic field. Calculate the magnetic flux through the coil.

A coil of 100 turns and area 5 square centimetre is placed in a magnetic field B = 0.2 T . The normal to the plane of the coil makes an angle of 60^(@) with the direction of the magnetic field. The magnetic flux linked with the coil is

The magnetic field perpendicular to the plane of a loop of area 0.1m^(2) is 0.2 T. Calculate the magnetic flux through the loop (in weber)

A rectangular loop of area 0.2m^(2) is lying in a magnetic field of 5xx10^(-2) tesla at an angle of 60^(@) with the magnetic field. The magnetic flux passing through this loop will be

A rectangular loop of area 0.4m^(2) is lying in a magnetic field of 4xx10^(-3) tesla. If the plane of the loop is at right angles to the magnetic field, then the magnetic flux passing through the loops will be