Calculate the magnetic induction (or magnetic field) at a point 1A away from a proton, measured along its ais of spin. The magnetic moment of the proton is `1.4xx10^-26A-m^2`

Calculate the magnetic induction at a point 1 away from a proton, measured along its axis of spin. The magnetic moment of the proton is 1.4xx10^(-26)A-m^(2)

The magnet induction at a point 1 Ã… away from a proton measured along its axis of spin is (magnetic moment of the proton is 1.4xx10^(-26)"A m"^(2) )

A proton is moved along a magnetic field line.The magnetic force on the particle is

A short bar magnet is arranged with its north pole pointing gergraphical north. It is found that the horizontal component of earth's magnetic induction (B_(H)) is balaced by the magnetic induction of the magnet at a point which is at a distance of 20 cm from its centre .The magnetic moment of the magnet is ( if H = 4 xx 10^(-5) Wbm^(-2))

Spin only magnetic moment of [PtCl_4]^(2-) is

The calculated spin only magnetic moment of Cr^2+ ion is:

The magnetic moment of a short bar magnet is 2 Am ^(2). The magnetic field at a point 1 m away from it in a direction making an angle 60^(@) with its magnetic moment is

Find the magnetic field due to a dipole of magnetic moment 1.2 A m^2 at a point 1m away from it in a direction making an angle of 60^@ with the dipole-axis .

A bar magnet of moment of inertia I is vibrated in a magnetic field of inducton is 0.4xx10^(-4)T . The time period period of vibration is 12 sec. The magnetic moment of the magnet is 120Am^(2) . The moment of inertia of the magnet is ("in"kgm^(2)) approximately

The magnitude of the equatorial magnetic field due to a bar magnet of length 2 cm at a distance of 1m from its mid-point is (magnetic moment of the bar magnet is 0.60 A m)