Two circular coils carrying currents are of nearly same radius have common centre and released from rest with their planes perpendicular . Assuming that they can freely rotate about their diameter, select the wrong alternative.

A circular ring and circular disc of same radius have equal moments of inertia about axes through their centres and perpendicular to their planes. The ratio of their masses is

Two identical coils carrying same current have common centre but have their planes at right angles to each other. If the field due to each is B, what is the resultant field?

A coil of radius R carries current i_1 . Another concentric coil of radius r(rlt ltR) carries current i_2 . Planes of two coils are mutually perpendicular and both the coil are free to rotate about common diametre. Find maximum kinetic energy of smaller coil when both the coils are released, masses of coils are M and m, respectively.

Two identical coils carry equal currents have a common centre and their planes are at right angles to each other. The ratio of the magnitude of the resulatant magnetic field at the centre and the field due to one coil is

Two thin uniform circular rings each of radius 10 cm and mass 0.1 kg are arranged such that they have a common centre and their planes are perpendicular to each other. The moment of inertia of this system about an axis passing through their common centre and perpendicular to the plane of one of the rings in kg-m^(2) is

15.A small circular loop of conducting wire has radius a and carries current I. It is placed in a uniform magnetic field B perpendicular to its plane such that when rotated slightly about its diameter and released it starts performing simple harmonic motion of time period T.If the mass of the loop is m then:

Two identical circular wires P and Q each of radius R and carrying current 'I' are kept in perpendicular planes such that they have a common centre as shown in the figure. Find the magnitude and direction of the net magnetic field at the common centre of the two coils.