Two sphereical bodies, each of mass 50 kg, are placed at a separation of 20 cm. Equal charges are placed on the bodies and it is found that the force of Coulomb repulsion equals the grativational attraction in magnitude. Find the magnitude of the charge placed on either body.

Two equal charges are placed at a separtion of 1.0 m. What should be the magnitude of the charges so that the force between them equals of a 50 kg person?

Two equal charges are placed at a separtion of 1.0 m. What should be the magnitude of the charges so that the force between them equals of a 50 kg person?

Two equal charges are placed at a separtion of 1.0 m. What should be the magnitude of the charges so that the force between them equals of a 50 kg person?

At what separation should two equal charges 1.0 C each, be placed so that the force between them equals the weight of a 50 kg person?

At what separation should two equal charges 1.0 C each, be placed so that the force between them equals the weight of a 50 kg person?

At what separation should two equal charges 1.0 C each, be placed so that the force between them equals the weight of a 50 kg person?

The ratio of two charges is 2:3 and their distance of separation is 5 cm. If the force of attraction between them is 96 dyn, determine the magnitude the magnitude of the charges .

Two equal point charges ar placed in air 10 cm aprat and the force of interaction between them is 50 mg - wt . Determine the magnitude of the charges.

Two charges A and B of -5 muC each are placed at a separation of 20 cm . Another charge C of +3 muC is placed at a separation of 20 cm from both the charges A and B . What should be the nature and magnitude of the charge to be placed at the midpoint between A and B so that net force on charge C is zero ?

Two charged particles placed at a separation of 20 cm exert 20 N of coulomb force on each other. What will be the force if the separation is increased to 25 cm?