Two positively charged small particles, each of mass `1.7 xx 10^(-27) kg` and carrying a charge of `1.6 xx 10^(-19) C` are placed apart at a separation r. If each one experiences a repulsive force equal to its weight find their separation.

Two positively charge particles each of mass 1.7 xx 10^(-27) kg and carrying a charge of 1.6 xx 10^(-19)C are placed r distance apart. If each one experience a repulsive force equal to its weight. Find the distance between them

Two positively charged particles each of mass is 9 xx 10^(-30)kg and carrying a charge of 1.6 xx 10^(-19)C are placed at a distance .r. apart. If each experiences a force equal to its weight, the value of r is (g = 10 ms^(-2))

A proton has a mass 1.67 xx 10^(-27) kg and charge + 1.6 xx 10^(-19) C. If the proton is accelerated through a potential difference of million volts, then the kinetic energy is

What is the force between two small charged of 2 xx 10^(-7) C placed 30 cm apart in air?

Two particles have equal masses of 5.0 g each and opposite charges of +4.0 xx10^(-5) C. They are released from rest with a separation of 1.0 m between them. Find the speeds of the particles when the separation is reducced to 50 cm.

Two chargea 2.0xx10^(-6) C and 1.0xx10^(-6) C are placed at a separation of 10 cm. where should a third charge be placed such that it experiences no net force due to these charges.

The electric field that can balance a charged particle of mass 3.2xx10^(-27) kg is (Given that the charge on the particle is 1.6xx10^(-19)C )

Answer the following: a) Obtain the expression for the deflecting torque acting on the current carrying rectangular coil of a Galvanometer in a uniform magnetic field. Why is a radial magnetic field employed in the moving coil galvanometer? b) Particles of mass 1.6 xx 10^(-27) kg and charge 1.6 xx 10^(-19) C are accelerated in a cyclotron of dee radius 40 cm. It employs a magnetic field of 0.4 T . Find the kinetic energy (in MeV ) of the particle beam imparted by the accelerator.

Two identical particles, each having a charge of 2.0xx10^(-4) C and mass of 10g, are kept at a separation of 10cm and then released. What would be the speeds of the particles when the separation becomes large?

Calculate the electric field strength required just to support a water drop of mass 10^(-7)kg having a charge 1.6 xx 10^(-19) C