In previous question if the particles started from rest and all are positively charge which particles must have been acted upon by a force other than that produced by the electric field.

In the diagram (given below), the broken lines represent the paths followed by particles W, X, Y and Z respectively through the contant field E. The number below the field represent meters. If the particles are positively charged, which particles increased their electric potential energy constant, none of the particle increased their electric potential energy

A positively charged particle is released from rest in an unform electric field. The electric potential energy of the charge

A particle starts from rest. Its acceleration at time t=0 is 5 m//s^(2) which varies with time as shown in the figure. The maximum speed of the particle will be

The figure shows a particle (carrying charge +q) at the orgin. A uniform magnetic field is directed into the plane of the paper. The particle can be projected only in the plane of paper and along positive or negative x- or y-axis. The particle moves with constant speed and has to hit a target located in the third quadrant. There are two direction of projections, which can make it possible, these are

If vecF is the force acting on a particle having position vector vecr and vectau be the torque of this force about the region, then :

A proton is kept at rest . A positively charged particle is released from rest at a distance d in its field .Consider two experiments , one in which the charged particle is also a proton and in another , a position . In same time t , the work done on the two moving charged particle is

An early model for an atom considered it to have a positively charged point nucleus of charge Ze, surrounded by a uniform density of negative charge up to a radius R. The atom as a whole is neutral. For this model, what is the electric field at a distance r from the nucleus ?

Four point charges +8muC,-1muC,-1muC and , +8muC are fixed at the points -sqrt(27//2)m,-sqrt(3//2)m,+sqrt(3//2)m and +sqrt(27//2)m respectively on the y-axis. A particle of mass 6xx10^(-4)kg and +0.1muC moves along the x-direction. Its speed at x=+ infty is v_(0) . find the least value of v_(0) for which the particle will cross the origin. find also the kinetic energy of the particle at the origin in tyhis case. Assume that there is no force part from electrostatic force.

In a region, steady and uniform electric and magnetic fields are present. These two fields are parallel to each other. A charged particle is released from rest in the region. The path of the particle will be a.......