Consider the situation shown in the figure. The surface is smooth and the string and the pulley are light. Find the acceleration of each block and tension in the string.

Consider the situation as shown in the figure. All the surface are smooth and the string and pulley are light. Find the mass of the hanging block which will prevent the smaller block form slipping over the triangular block.

Consider the situation as shown in the figure. All the surface are smooth and the string and pulley are light. Find the mass of the hanging block which will prevent the smaller block form slipping over the triangular block.

Consider the situation shown in figure. All the surfaces are frictions and the string and the pulley are light. Find the magnitude of the acceleration of the two blocks.

Consider the situation shown in figure. All the surfaces are frictions and the string and the pulley are light. Find the magnitude of the acceleration of the two blocks.

Consider the situation shown in figure. All the surfaces are frictions and the string and the pulley are light. Find the magnitude of the acceleration of the two blocks.

The strings are inextensible and light : the pulleys are smooth and light. Find the acceleration of each block and tensions in the strings.

The strings are inextensible and light : the pulleys are smooth and light. Find the acceleration of each block and tensions in the strings.

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)) .

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)) .

Consider the situation shown in figure. All the surface are smooth. The tension in the string connected to 2m is.