A 0.50 gm ball carries a charge of magnitude `10mu C`. It is suspended by a string in a downward electric field of intensity 300N/C. If the charge on the ball is positive, then the tension in the string is `(g = 10 ms^(-2))`

A sphere of mass 50gm is suspended by a string in an electric field of intensity 5NC^(-1) acting vertically upward. If the tension in the string is 520 milli newton, the charge on the sphere is (g = 10 ms^(-2))

A sphere of mass 50 gm is suspended by a string in an electric field of intensity 5NC^(-1) acting vertically upward. If the tension in the string is 520 millinewton, the charge on the sphere is (g = 10ms^(-2))

A charged oil drop weighing 1.6 xx 10^(-15) N is found to remain suspended in a uniform electric field of intensity 2 xx 10^3NC^(-1) . Find the charge on the drop.

A 10 kg steel ball is suspended by two strings as shown. The tensions in the two strings are: (g=9.8 m//s^(2) )

A charged cork of mass m suspended by a light string is placed in uniform electric field filed of strength E = (hati+hatj) xx 10^(5)NC^(-1) as shown in the figure. If in equilibrium position tension in the string is 2mg//(1+sqrt3) the angle alpha with the vertical can be

Two charged particles having charge 2.0xx 10^(-8)C each are joined by an insulating string of length 1 m and the system is kept on a smooth horizontal table. Find the tension in the string.

The electric field due to a point charge at a distance 6 m from it is 630 N/C. The magnitude of the charge is

A block of mass 0.2 kg is suspended from the ceiling by a light string. A second block of mass 0.3 kg is suspended from the first block through another string. Find the tensions in the two strings. Take g=10 m/s^2 .

A charged ball of mass 5.88xx10^(-4) kg is suspended from two silk strings of equal lengths so that the strings are inclined at 60^(@) with each other. Another ball carrying a charge which is equal in magnitude but opposite in sign of the first one is placed vertically below the first one at a distance of 4.2xx10^(-2) m . Due to this, the tension in the strings is doubled. Determine the charge on the ball and the tension in the strings after electrostatic interaction. (g=9.8 m//s^(2))

Two charged particles having charge 2.0 xx 10^(-8)C . Each are joined by an isolating string of length 1m and the system is kept on a smooth horizontal task. The tension in the string.