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

Three identical charges are placed on three vertices of a square. If the force acting between q_1 and q_2 is F_(12) and between q_1 and q_3 is F_13 then (F_13)/(F_12) = ________.

In previous question the ratio of heat flow at M and N are Q_1 and Q_2 respectively. Then –

Three charged paricles are placed on a straight line as shown in fig. q_(1) and q_(2) are fixed but q_(3) can be moved. Under the action of the forces from q_(1),q_(2) and q_(3) is in equilbrium. What is the relation between q_(1) and q_(2) .

Three concentric metallic spherical shells of radii R, 2R, 3R, are given charges Q_1 , Q_2 , Q_3 , respectively. It is found that the surface charge denisties on the outer surfaces of the shells are equal. Then, the ratio of the charges given to the shells, Q_1:Q_2:Q_3 , 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 concentric metallic spherical shells of radii R, 2R, 3R are given charges Q_(1) Q_(2) Q_(3) , respectively. It is found that the surface charge densities on the outer surface of the shells are equal. Then, the ratio of the charges given to the shells Q_(1) : Q_(2) : Q_(3) is

In the previous question,if the particle has -Q charge the time spend by the particle in the field will be .

Two point charges q_(1) and q_(2) are released from rest in a gravity free hall when distance between them is a . Find the maximum speeds of charged particle. The mass of each charged particle is m .

If " q_(1)+q_(2)=q " ,then the value of the ratio " q_(1)/q " ,for which the force between q_(1) and " q_(2) " is maximum is