Consider the system shown in figure. The pulley and the string are light and all the surface are frictionless. The tension in the string is `("Take g" = 10 m//s^(2))`

Consider the system as shown in the figure. The pulley and the string are light and all the surfaces are frictionless. The tension in the string is (=g10m//s^(2)) .

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

Calculate the tension in the string shown in figure. The pulley and the string are light and all surfaces are frictionless. Take g=10 m/ s^2 .

In the situation shown in figure, both the pulleys and the strings are light and all the surfaces are frictionless. The acceleration of mass M, tension in the string PQ and force exerted by the clamp on the pulley, will respectively be -

Consider4 the situation shown in figure. Bothe the pulleys and the string are light and all the surfaces are friction less. a. Find the acceleration of the mass M. b. Find the tension in the string c. Calculate the force exerted by the clamp on the pulley A in the figure.

In the shown arrangement , both pulleys and the string are massless and all the surface are frictionless. Find the acceleration of the wedge.

Calculate the tension in the string shown in (a) The pulleys and the string are light and all surfaces are frictionless. (g=10m//s^(2))

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)

Consider the situation shown in figure .Both the pulleys and the string and light and all the surfaces are smooth. (a) Find the acceleration of 1kg block. (b) Find the tension in the string. (g = 10 m//s^(2)) .