A bar magnet of magnetic moment M is gently placed inside the two mutually perpendicular magnetic field `B_V = 6T and B_H = 2T` . The net torque on the bar magnet will be zero

A bar magnet of magnetic moment M is bent in the form of quadrant of circular arc . The new magnetic moment is

A bar magnet of magnetic moment M is hung by a thin cotton thread in a uniform magnetic field B. Work done by the external agent to rotate the bar magnet from stable equilibrium position to 120° with the direction of magnetic field is (consider change in angular speed is zero)

Two identical bar magnets, each of magnetic moment M, are placed as shown in figure. Magnetic field at point

A bar magnet of magnetic moment vec(M) is placed in a magnetic field of induction vec(B) . The torque exerted on it is

A magnet of magnetic moment 50 hat(i) A-m^(2) is placed along the x-axis in a magnetic field vec(B)=(0.5hat(i)+3.0hat(j))T . The torque acting on the magnet is

A short bar magnet of magnetic moment 0*4JT^-1 is placed in a uniform magnetic field of 0*16T . The magnet is in stable equilibrium when the potencial energy is

The potential enargy of bar magnet of magnetic moment 8 Am ^(2) placed in a uniform magnetic field of 2 T at an angle of 120^(@) is equal to

Time period of cillations of a magnet of magnetic moment M and moment of inertia l in a vertical plane perpendicular to the magneitc meridian at a place where earth's horizontal and vertical component of magnetic field are B _(H) and B_(v) respectively is

A magnetic of magnetic moment placed along the X-axis in an magnet field .Find the torque acting on the magnetic field

A bar magnet of magnetic moment M is cut into four identical parts as shown in figure, then magnetic moment of each part is