A magnetic dipole is under the influence of two magnetic fields. The angle between the field directions is `60^@` , and one of the fields has a magnitude of `1.2 xx 10^(-2)` T. If the dipole comes to stable equilibrium at an angle of `15^@` with this field, what is the magnitude of the other field ?

A magnetic dipole is under the influence of two magnetic fields. The angle between the two field directions is 60^(@) and one of the fields has a magnitude of 1.2xx10^(-2)T . If the dipole comes to stable equilibrium at an angle of 15^(@) with this field, what is the magnitude of the other field?

A magnetic dipole is under the influence of two magnetic fields. The angle between the field directions is 60^@ and one of the fields has a magnitude of 1*2xx10^-2 tesla. If the dipole comes to stable equilibrium at an angle of 15^@ with this field, figure, what is the magnitude of the other field?

A magnetic dipole is under the influence of trwo magnetic fields. The angle between the two field directionss is 60^(@) and one of the fields has a magnitudeo f1.2xx10^(-2)T . Of the dipole comes to stable equilibrium at an angle of 15^(0) with this field, what is the magnitude of the other field?

A magnetic dipole is under the influence of two magnetic fields. The angle between the field directions is 60^@ and one of the fields has a magnitude of 1*25xx10^-2T . If the dipole comes to stable equilibrium at an angle of 15^@ with this field, find the magnitude of other magnetic field.

A magnetic dipole is under the influence of two magnetic fields. The angle between the field directions is 60^(circ) and one of the fields has a magnitude of 1.2 xx 10^(-1)T . If the dipole comes to stable equilibrium at an angle of 30^(circ) with this field, then the magnitude of the field (in tesla) is x xx 10^(2) T . Find x ,

A magnetic dipole is under the infuence of two magnetic fields. The angle between the field directions is 60^(circ) and one of the ficlds has a magnitude of 1.2 xx 10^(-1)T . If the dipole comes to stable equilibrium at an angle of 30^(circ) with this field, then the magaitude of the fteld (in tesla) is x xx 10^(2) T . Find x ,

A bar magnet is suspended in a region where it is acted upon by two magnetic fields inclined at an angle of 60^@ to each other. One of the fields has a magnitude of 1*2xx10^-2T . The magnet attains stable equilibrium at an angle of 15^@ with this field. Calculate the magnitude of other field. Ignore earth's field.