A rod `AB` of mass `m` is hung by two ideal threads. Find the ratio of tensions in the two threads `((T_(1))/(T_(2)))`.

A uniform rod of mass m and length L is suspended with two massless strings as shown in figure. If the rod is at rest in a horizontal position the ratio of tension in the two strings T_(1)//T_(2) is

A uniform rod of mass m and length L is suspended with two massless strings as shown in the figure. If the rod is at rest in a horizontal position the ratio of tension in the two strings T_1/T_2 is:

Two blocks are connected by a string that passes over a pulley of radius R and moment of inertia I . The block of mass m_(1) sides on a frictionless, horizontal surface, the block of mass m_(2) is suspended from the string. Find the acceleration a of the blocks and the tension T_(1) and T_(2) assuming that the string does not slip on the pulley.

In the arrangement shown in figure the mass of the uniform solid cylindrical pulley of radius R is equal to m and the masses of two bodies are equal to m_(1) and m_(2) . The thread slipping and the friction in the axle of the pulley are supposed to be absent. Find the angular acceleration of the cylinder and the ratio of tensions (T_(1))/(T_(2)) of the vertical sections of the thread in the process of motion.

The following graphs shows two isotherms for a fixed mass of an ideal gas. Find the ratio of r.m.s speed of the molecules at tempertaures T_(1) and T_(2) ?

Two particles each of mass m are moving in horizontal circle with same angular speed. If both string are of same length then the ratio of tension in string (T_(1))/(T_(2)) is

Three identical particles are joined together by a thread as shown in figure All the partical are moving in a horizontal plane If the vertical of the outermost particle is v_(0) then the ratio of tension in the three sections of the string (T_(1):T_(2):T_(3) = ?) is

Two bodies with masses m_1 and m_2 (m_2 gt m) connected by a thread lie on a smooth table. A force Q is first applied to the larger mass and then to the smaller mass. The ratio of tensions in the thread in the two cases will be

Assertion : Two identical balls are charged by q. They are suspended from a common point by two insulating threads l each. In equilibrium, the angle between the tension in the threads is 180^(@) . (Ignore gravity). Reason : In equilibrium tension in the spring is T=1/(4pi epsi_(0)) (q.q)/l^(2)