For the system shown in figure, the tensions in the string

A bob in tied to a string of length l & and kept on a horizontal rough surface as shown in the figure when point O of the string is fixed. The bob is given a tangential velocity V_(0) keeping the string taut as shown in figure. Find the tension in the string as a function of time. The coefficient of kinetic friction is mu .

A string of lenth l fixed at one end carries a mass m at the other end. The strings makes (2)/(pi)revs^(-1) around the axis through the fixed end as shown in the figure, the tension in the string is

A block of mass 3m is suspended by a meter scale rod of mass m as shown in figure. If the tension in the string A is equal to kmg in equilibrium, then value of k will be

A system is at rest as shown in figure. The tension in the string in T_(1) . When the 2 kg block is removed, the system moves with some acceleration a and tension in string becomes T_(2) Find T_(1)//T_(2) .

Two blocks each of mass m are connected over two light and frictionless pulleys and a fixed wedge by a light string as shown in figure. The tension in the string is :

A uniform sphere of weight W and radius 5 cm is being held by string as shown in the figure. The tension in the string will be

Two masses m_1 and m_2 are placed on a smooth horizontal surface and are connected by a string of negligible mass. A horizontal force F is applied on the mass m_2 as shown in the figure. The tension in the string is

For the system shown in the figure, the inclined plane is fixed, all the pulleys are light and friction is absent every where.The tension in the string will be

A uniform rod of length l and mass m is hung from, strings of equal length from a ceiling as shown in figure. Determine the tensions in the strings?

A uniform sphere of weight W and radius 3 m is being held by a frictionless wall as shown in the figure. The tension in the string will be (length of the string is 2m):