Two metal pieces having a potential difference of `800V` are `0.02 m` apart horizontally. A particle of mass `1.96xx10^(-15) kg` is suspended in equilibrium between the plates. If the `e` is the elementary charge, then charge on the particle is

A particle of mass 1.96xx10^(-15) kg is kept in equilibrium between two horizontal metal plates having potential difference of 400 V separated apart by 0.02 m. then the charge on the particle is (e= electronic charge)

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 particle A having a charge of 2.0xx10 ^(-6) C is held fixed on a horizontal table. A second charged jparticle of mass 80g stays in equilibrium on the table at a distance of 10 cm from the firsst charge. The coefficient of friction between the table and this second jparticle is mu = 0.2 . find the range within which the charge of this second particle may lie.

Two parallel plates separated by a distance of 5 mm are kept at a potential difference of 50 V. A particle of mass 10^(-15) and charge 10^(-11) C enters in it with a velocity 10^(7)m//s . The acceleration of the particle will be

A water particle of mass 10.0 mg and having a charge of 1.50 xx 10^(-6)C stays suspended in a room. What is the magnitude of electric field in the room ? What is its direction?

A particle of mass 2 xx 10^(-3) kg, charge 4 xx 10^(-3)C enters in an electric field of 5 V//m , then its kinetic energy after 10 s is

Two identical charges, 5 muC each are fixed at a distance 8 cm and a charged particle of mass 9 xx 10^(-6) kg and charge -10 muC is placed at a distance 5 cm from each of them and is released. Find the speed of the particle when it is nearest to the two charges.

A particle of charges Q and mass m travels through a potential difference V from rest. The final momentum of the particle is

An alpha- particle is describing a circle of radius 0.45 m in a field of magnetic induction of 1.2 T. Find its speed, frequency of rotation and kinetic energy. What potential difference will be required to accelerate the particle so as to give this much of the energy to it? The mass of alpha- particle is 6.8 xx 10^(-27) kg and its charge is twice the charge of proton, i.e., 3.2 xx 10^(-19) C .

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.