In the arrangement shown, all string are light and inextensible, pulley is light and smooth. Given `W_3 = 300 N` . match the list in column-l to that in column-ll, when the system is in equilibrium 

In the arrangement shown, all strings are light and inextensible, pulleys light and smooth. All surfaces are smooth. The block A moves on smooth horizontal surface towards left at a . 12 ms^(-2) The block B always remain in horizontal position. Acceleration block B is

In the arrangement shown surfaces are smooth, pulley is ideal and string is light. If F=(Mg)/2 , then

In the system as shown in figure, all surfaces are smooth, strings are light and inextensible, Given m_A = 1kg, m_B 2kg m_C = 3 kg , g = 10ms^(-2) K = 50 Nm^(-1) The system is released from rest.

A block A of mass 3kg and another block B of mass 2 kg are connected by a light inextensible string as shown in figure. If the coefficient of friction between the surface of the table and A is 0.5. What maximum mass C is to be placed on A so that the system is to be in equilibrium? (g = 10 m//s^2)

A block A of mass 3kg and another block B of mass 2 kg are connected by a light inextensible string as shown in figure. If the coefficient of friction between the surface of the table and A is 0.5. What maximum mass C is to be placed on A so that the system is to be in equlibrium?