Two similar balloons filled with helium gas are tied to `L m` long string. A body of mass `m` is tied to another ends of the strings. The balloons float on air at distance `r`. If the amount of charge on the ballons is same then the magnitude of charge on each balloon will be

A stone of mass m tied to a string of length l is rotated in a circle with the other end of the string as the centre. The speed of the stone is v. If the string breaks, the stone will move

A stone tied to the end of string 1m long is whirled in a horizontal circle with a constant speed. If the stone makes 22 revolution in 44s, What is the magnitude and direction of acceleration of the ston is ?

A light string is tied at one end to a fixed support and to a heavy string of equal length L at the other end as shown in figure. A block of mass m is tied to the free end of heavy string. Mass per unit length of the strings are mu and 9mu and the tension is T . Find the possible values of frequencies such that junction of two wire point A is a node.

A stone of mass M tied at the end of a string, is moving in a circular of radius R, with a constant angular velocity omega . The work done on the stone, in any half circle I s

Two identical helium filled balloons A and B fastened to a weight of 5 g by threads floats in equilibrium as shown in figure. Calculate the charge on each balloons, assuming that they carry equal charge.

Two identical small charged spheres, each having a mass m, hang in equilibrium the length of each string is l, and the angle made by any string with the vertical is theta . Find the magnitude of the charge on each sphere.

Two blocks of equal mass m are tied to each other through light string. One of the blocks is pulled along the line joining them with a constant force F. Find the tension in the string joining the blocks.

A uniform disc of radius R and mass M is free to rotate only about its axis. A string is wrapped over its rim and a body of mass m is tied to the free end of the string as shown in the figure. The body is released from rest. Then the acceleration of the body is

A uniform disc of radius R and mass M is free to rotate only about its axis. A string is wrapped over its rim and a body of mass m is tied to the free end of the string as shown in the figure. The body is released from rest. Then the acceleration of the body is

Two identical He-filled spherical balloons each carrying a charge q are tied to a weight W with strings and float in equlibrium, as shown in figure. (i) Find the magnitude of q, assuming that the charge on each balloon acts as if it were concentrated at the center. (ii) Find the volume of each balloon. Take the density of He as rho_(He) and the density of air as rho_(a) . Ignore the weight of the unfilled balloons . ,