Two normal uniform magnetic field contain a magnetic needle making an angle `60^(@)` with F. Then the ratio of `F/H` is

A bar magnet of magnetic moment M is divided into 'n' equal parts cutting parallel to length. Then one part is suspended in a uniform magnetic field of strength 2T and held making an angle 60^(@) with the direction of the field. When the magnet is released the K.E of the magnet in the equilibrium position is

A magnet suspended in a uniform magnetic field of induction 0.2" Wb/m"^(2) , makes an angle of 60^(@) with the normal to the direction of the field. What is the magnetic moment of the magnet, if a torque of moment 15xx10^(-2) Nm acts on it?

In case of a uniform magnetic field, the lines of magnetic induction are

A rectangular coil of wire carrying a current is suspended in a uniform magnetic field. The plane of the coil is making an angle of 30^(@) with the direction of the field and the torque experienced by it is tau_(1) and when the plane of the coil is making an angle of 60^(@) with the direction of the field the torque experienced by it is tau_(2) . Then the ratio tau_(1):tau_(2) is

A bar magnet is placed in a uniform magnetic field with its magnetic moment making an angle theta with the field. Write expressions for torque on the bar magnet and potential energy of magnet in this orientation. When it this energy minimum?

A bar magnet of magnetic moment 5Am^(2) is suspended in a uniform magnetic field of strength "2T" making an angle 60^(0) with the direction of the field.The potential energy of the magnet in that position is (A) 5J (B) -5J (C) 10J (D) -10J

Two identical charged particles enter a uniform magnetic field with same speed but at angles 30^(@) and 60^(@) with field Let a,b and c be the ratio of their time periods, radii and pitches of the helical paths than .

Discuss the motion of a charged particle when subjected to a uniform magnetic field, when the direction of motion of the particle makes an angle phi with the direction of magnetic field.

A charged particle enters a magnetic field H with its initial velocity making an angle of 45^(@) with H . The path of the particle will be