A reaction proceeds through two paths I and II to convert `X rarr Z`.

What is the correct relationship between `Q. Q_(1) and Q_(2)` ?

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) .

Which of the following is correct if reaction quotient (Q)=1 ?

Identify the correct statement about the charges q_1 and q_2 then

Determine the product of the reaction: ._3^7Li +._2^4He rarr ? +n What is the Q value of the reaction?

A charge Q is divided into two parts. Charge on each part is q. Also, Q//q=2 . What is the Columbic force between two charges q and q when both parts are placed certain distance apart?

An electrostatic field line leaves at angle alpha from charge q_(1) and connects with point charge -q_(2) at angle beta (see figure). then find the relationship between alpha and beta :

Threee charges +Q_(1),+Q_(2) and q are placed on a straight line such that q is somewhere in between +Q_(1) and Q_(2) . If this system of charges is in equlibirium what should be the magnitude and sign of charge q?

A certain charge Q is divided into two parts q and Q-q , which are then separated by a certain distance. What must q be in terms of Q to maximum the electrostatic repulsion between the two charges?

Two large conduction spheres carrying charges Q_(1) and Q_(2) are brought close to each other. Is the magnitude of the force between them exactly given by Q_(1)Q_(2)//4piepsilon_(0)r^(2) . Where r is the distance between their centers.

Three equal charges are placed on the three corners of a square. If the force between q_(1) and q_(2) is F_(12) and that between q_(1) and q_(3) is F_(13) , then the ratio of magnitudes (F_(12)//F_(13)) is