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` :

The figure shown is a plot of electric field lines due to two charges Q_(1) and Q_(2) . The sign of charges is

If alpha, beta be the roots of the equation x^2-px+q=0 then find the equation whose roots are q/(p-alpha) and q/(p-beta)

Two particles are held in equilibrium by the gravitational and electrostatic forces between them. Particle-A has mass m_(alpha) and charge q_(alpha) and particle-B has mass m_(b) and charge q_(b) . The distance between the charges may cause the chages to accelerate towards one another ?

In the adjoining figure, the electric field lines for charges q_1 and q_2 are shown. Identify the sign of the charges.

The figure is a plot of lines of force due to two charges q_(1)andq_(2) . Find out the sign of charges.

If alpha and beta are zeroes of the polynomial 3x^(2)+6x+1 , then find the value of alpha+beta+alpha beta .

If the lines px^2-qxy-y^2=0 makes the angles alpha and beta with X-axis , then the value of tan(alpha+beta) is

A charge Q is placed at the centre of the line joining two point charges +q and +q as shown in figure. The ratio of charges Q and q is

A charged particle (q,m) enters uniform magnetic field B at angle alpha shown in figure with speed v_0 . Find a. The angle beta at which it leves the magnetic field b. time spent by the particle in magnetic field and c. the distance C .

A charged particle (q,m) enters uniform magnetic field B at angle alpha shown in figure with speed v_0 . Find a. The angle beta at which it leves the magnetic field b. time spent by the particle in magnetic field and c. the distance C .