For the arrangement shown in figure, angle `theta` for which tension `T_1` in the left string will be minimum is (Pulley and strings are ideal)

The tension T in the string shown in figure is

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

In the arrangement shown in figure , find the ratio of tension in the strings attached with 4kg block and the with 1kg block

For the arrangement shown in the fig. below the tension in the string is [ Given : tan^(-1) ( 0.8) = 39^(@) ]

In the arrangement shown in the figure the elevator is going up with an acceleration of g/10. If the pulley and the string are light and the pulley is smooth, the tension in the string AB is

Find the tension in the string and the extension in the spring at equilibrium . Where pulley, strings and springs are ideal.

For the system shown in the figure, the pulleys are light and frictionless. The tension in the string will be (Assume all surfaces to be smooth)

In the system shown in the figure, which the following is correct? (Pulleys and strings are of negligible mass)

In the arrangement shown in the figure the mass M is very heavy compared to m (M gt gt m) . The tension T in the string suspende from the ceiling is

In the given arrangement shown in figure, surface is frictionless, string is inextensible and massless, pulley B is frictionless. Length of the string is l . At t=0 , AB=l . Find out the velocity of block C , when distance between blocks is minimum, it is was released from rest at t=0 .