A charged particle of mass 0.003 g is held stationary in space by placing it in a downward direction of electric field of `6xx10^(4)NC^(-1)`. Then, the magnitude of charge is

A charged particle of mass 5 xx 10^(-5) kg is held stationary in space by placing it in an electric field of strength 10^(7) NC^(-1) directed vertically downwards. The charge on the particle is

A charged particle of mass 5 xx 10^(-5) kg is held stationary in space by placing it in an electric field of strength 10^(7) NC^(-1) directed vertically downwards. The charge on the particle is

A charged particle of mass 3 xx 10^(-6) kg is held stationary in spacing in an electric field of strength 10^(6) NC^(-1) directed vertically downwards. The charge on the particle is ( g = 10 ms^(-2))

A Charged particle of mass 1.0 g is suspended through a silk thread of length 40 cm in a horizantal electric field of 4.0 xx 10 ^4 NC ^(-1) . If the particle stays aty a distance of 24 cm from the wall in equilibrium, find the charge on the particle.

A Charged particle of mass 1.0 g is suspended through a . silk thread of length 40 cm in a horizantal electric field . of 4.0 xx 10 ^4 NC ^(-1) . If the particle stays aty a distance of . 24 cm from the wall in equilibrium, find the charge on . the particle.

A Charged particle of mass 1.0 g is suspended through a . silk thread of length 40 cm in a horizantal electric field . of 4.0 xx 10 ^4 NC ^(-1) . If the particle stays aty a distance of . 24 cm from the wall in equilibrium, find the charge on . the particle.

A charged particle of mass 1 g is suspended through a silk thread of length 40 cm in a horizontal electric field.fo 4.0 xx 10^4NC^-1 . If the particle stays at a distane of 24 cm from the wall in equilirbium, find the charge on the particle.