A particle of charge 1 `muC` is moving from point A that is at potential 100 V to point B that is at potential 500 V. Calculate the change in kinetic energy of the charged particle.

A ball of mass 1 kg carrying a charge 10^(-8)C moves from a point A at potential 600 V to a point B at zero potential. The change in its kinetic energy is

The kinetc energy of a chargd particle decreased by 10 J as it moves from a point at potential 100 V to a point at potential 200V . Find the charge on the particle.

On moving a charge of 2C from a point A where potential is +12V to a point B where potential is -12 V, the work done is -

A charge is moved in an electric field of a fixed charge distribution from point A to another point B slowly. The work done by external agent in doing so is 100J . What is the change in potential energy of the charge as it moves from A to B ? What is the work done by the electric field of the charge distribution as the charge moves from A to B ?

A positive charged particle when moves from potential to lower potential

Assertion: An independnt negative charge moves itself from point A to point B. then, potential at A should be less than potential at B. Reason: While moving from A to B kinetic energy of electron will increase

The potential energy of a particle is determined by the expression U=alpha(x^2+y^2) , where alpha is a positive constant. The particle begins to move from a point with coordinates (3, 3) , only under the action of potential field force. Then its kinetic energy T at the instant when the particle is at a point with the coordinates (1,1) is

On moving a charge of 7C from a point x where potential is +5.5V to a point y where potential is -7.6 V, the work done is -