A magnet of dipole moment `2Am^(2)` is deflected through `30^(@)` from magnetic meridian. The required deflecting torque is `(B_(H)=0.4xx10^(-4)T)`

A bar magnet of 5 cm long having a pole strenght of 20 A.m . Is deflected through 30^(@) from the magnetic meridian. If H=(320)/(4pi)A//m , the deflecting couple is

A magnet of magnetic dipole moment 4 Am^(2) is deflected though 45^(@) from the direction of a magnetic field of induction 3sqrt(2)" Wb/m"^(2) . What is the magnitude of the torque on the magnet?

A magnet 10 cm and having a pole strength of 8 units is deflected through 45^(@) from the magnetic meridian. If the earth's magnetic field is 0.32 oersted, value of the deflecting couple in dynes cm will be

A magnetic wire of dipole moment 4pi Am^(2) is bent in the form of semicircle. The new magnetic moment is

A magnet is suspended in the magnetic meridian with an untwisted wire. The upper end of wire is rotated through 180^(@) to deflect the magnet by 30^(@) from magnetic meridian. When this magnet is replaced by another magnet, the upper end of wire is rotated through 270^(@) to deflect the magnet 30^(@) from magnetic meridian. The ratio of magnetic moment of magnets is

A bar magnet of magnetic moment 200 A-m^(2) is suspended in a magnetic field of intensity 0.25 N//A-m . The couple required to deflect it through 30^(@) is

The magnetic moment of magnet is 1 joule per tesla. How much work is done in turning it through 90^(@) from the magnetic meridian at a place where B = 1.6 xx 10^(-5)T ?

Calculate the work done in deflecting a small magnet of magnetic moment 10Am^(2) through 180^(@) from a uniform magnetic field of strength 0.4 xx 10^(-4)T .

A short bar magnet of magnetic moment 12.8xx10^(-3)Am^(2) is arranged in the magnetic meridian with its south pole pointing geographic north. If B_(H)=0.4 gauss, the distance between the null points is