Two magnet of equal mass are joined at right angles to each other as shown the magnet 1 has a magnetic moment 3 times that of magnet 2. This arrangment is pivoted so that it is free to rotate in the horizontal plane. In equilibrium what angle will the magnet 1 subtend with the magnetic meridian?

Two magnets of equal mass are joined at 90^(@) each other as shown in figure. Magnet N_(1)S_(1) has a magnetic moment sqrt3 times that of N_(2)S_(2) . The arrangement is pivoted so that it is free to rotate in horizontal plane. When in equilibrium, what angle should N_(1)S_(1) make with magnetic meridian?

Two magnets of equal mass are joined at 90^(@) each other as shown in figure. Magnet N_(1)S_(1) has a magnetic moment sqrt3 times that of N_(2)S_(2) . The arrangement is pivoted so that it is free to rotate in horizontal plane. When in equilibrium, what angle should N_(1)S_(1) make with magnetic meridian?

Two magnets of moment M and 2 M are tied at an angle of 60^(@) to each other . What is the resultant magnetic moment of the combination ?

Two magnets of moment M and 2 M are tied at an angle of 60^(@) to each other . What is the resultant magnetic moment of the combination ?

Two similar bar magnetic moment M each are attached at right angle with each other at their ends. The magnetic moment of the system will be

Two similar bar magnets of magnetic moment M each are attached at right angle with each other at their ends. The magnetic moment of the system will be.

Two magnets each of magnetic moment M are placed so as to form a cross at right angles to each other. The magnetic moment of the system is

The resultant magnetic moment of three magnetic dipoles, each of the magnetic moment M shown in the arrangement is