A charged particle `q_1` is at position (2,-1,3) . The electrostatic force on another charge particle `q_2` at (0,0,0) is

A charge particle q_(1) , is at position (2, -1, 3). The electrostatic force on another charged particle q_(2) at (0, 0, 0) is :

Three charged particle sare in equilibrium under their electrostatic forces only. Then

In the above question, the ratio of masses of the charge particles q_1,q_2, and q_3 is

Three charged particles are arranged in a line,as shown in figure.Calculate the net electrostatic force on particle3 ( the -4.0 muC on the right ) due to the other two charges. Strategy : The net force exerted on 3by particle 1 is the resultant of the force bar(F_(31)) exerted on 3 by particle 1 and the force bar(F_(32)) exerted on 3 by particle 2, bar(F) =bar(F)_(31)+bar(F)_(32)

A charge particle q of mass is placed at a distance d from another charge particle -2q of mass 2 m in a uniform magnetic field B as shown if particle are projected towareds each other with equal speed v_(0) , so that the two particle touches each other without collision during its motion (Assume only force due to magnetic field acts on the particle)

Inside a neutral hollow conducting sphere of radius X and centre C, a point charge q is placed as shown in the figure. Another point charge q_1 , is placed outside the sphere at distance d from centre. The net- electrostatic force on charge q placed at the centre is K=1/(4piepsilon_0)

STATEMENT-1 : If a charge particle enters into a uniform electric field, then its path must be straight line. and STATEMENT -2 : Electrostatic force on a positive charge particle is always in the direction of electric field.

Six charge of magnitude +q and -q are fixed at the corners of a regular hexagon of edge length a as shown in the figure .The electrostatic interaction energy of the charged particle is :

Electric and magnetic field are directed as E_(0) hat(i) and B_(0) hat(k) , a particle of mass m and charge + q is released from position (0,2,0) from rest. The velocity of that particle at (x,5,0) is (5 hat(i) + 12 hat(j)) the value of x will be

In fig. a central particle of charge -q is surrounded by two circular rings of charged particle of radii r and R, with Rgtr. what is the magnitude and dirction of the net electrostatic force on the central particle due to the other particles?