Four point size metal spheres each of mass 1 kg are placed on a turn table and are connected by four strings of equare. If the spheres are rotated with an angular velocity
`(1)/(pi)` rps, the tention in the connecting strings is

4 point size steel spheres each of mass 1kg are placed on a turn table and are connected by 4 strings each of length a to form a square. If the spheres are rotated with an angular velocity of (1)/(2pi)rev//sec the tension in the connecting strings in newton is

In the figure, a ball of mass m is tied with two strings of equal as shown. If the rod is rotated with angular velocity omega_(1) when

In the figure, a ball of mass m is tied with two strings of equal as shown. If the rod is rotated with angular velocity omega_(1) when

Two particles of masses m_1 and m_2 are connected to a string and the system is rotated in a horizontal plane with 'P' as center. The ratio of tension in the two parts of string is

A solid sphere of mass 1 kg and of radius 10 cm is rotating about one of its diameter with an angular velocity of pi rad . s^(-1) . Calculate the kinetic energy of the sphere by using the relevant formula.

A metallic sphere of mass 3 kg in air is held by a string so as to be completely immersed in a liquid of relative density 0.8. The relative density of metallic sphere is 10. The tension in the string is :-

A metallic sphere of mass 3 kg in air is held by a string so as to be completely immersed in a liquid of relative density 0.8. The relative density of metallic sphere is 10. The tension in the string is :-

A metallic sphere of mass 3 kg in air is held by a string so as to be completely immersed in a liquid of relative density 0.8. The relative density of metallic sphere is 10. The tension in the string is :-

Four balls of mass 5 kg each are placed on the top of a horizontal turntable and fastened together with four strings of length 1 m each to from a square of side 1m. The axis of rotation passes through the centre of the square. Find the tension in the strings when the turntable is rotated at the rate of (30)/(pi) rpm.

Two particle of masses 10 kg and 35 kg are connected with four strings at points B and D as shown in fig. Determine the tension in various segments of the string.