Looking at the various electric lines of forces between charges `Q_(1)` and `Q_(2)`, find the value of `(Q_(1))/(Q_(2))`.

The electric lines of force of two point charges are shown in fig. What is the value of the ratio q_(1)//q_(2) ?

The given figure gives electric line of force due to two charges q_(1) and q_(2) . What are the signs of the two charges ?

The electrostatic force between two point charges q_(1) and q_(2) at separation r is given by F= k. (q_(1)q_(2))/(r^(2)) . The constant k

Identify the correct statement about the charges q_(1) and q_(2) .

Write the vector form of force acting between two charges q_(1) and q_(2) having vecr_(1) and vecr_(2) as their position vectors respectively.

Two point charges Q_(1) and Q_(2) are positioned at points I and 2. The field intensity to the right of the charge Q_(2) on the line that passes through the two charges varies according to a law that is represented in the figure. The field intensity is assumed to be positive if its direction coincides with the positive direction on the x-axis. The distance between the charges is l. (a) Find the sign of each charge (b) Find the ratio of the absolute values of the charges |(Q_(1))/(Q_(2))| (c) Find the value of b where the field intensity is maximum [(a) Q_(2) is negative and Q_(1) is positive (b) ((l +a)/(a))^(2) , (c) (l)/(((l+a)/(a))^(2//3)-1)]

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

A charge Q located at a point vec r is in equilibrium under the combined field of three charges q_(1), q_(2) and q_(3) . If the charges q_(1) and q_(2) are located at point vec r_(1) and vec r_(2) respectively, find the direction of the force on Q due to q_(3) in terms of q_(1),(q_2), vec r_(1) vec r_(2) , and vec(r) .

Fig.1 shows the variation of electric potential V with 1//r , where r is the distance from the two charges Q_(1) and Q_(2) . Determine (i) signs of two charges Q_(1) and Q_(2) (ii) Which of the two charges has a larger magnitude ? Justify.