A force F=t is applied to block A as shown in figure. The force is applied at t=0 seconds when the system was at rest and string is just straight without tension. Which of the following graphs gives the friction force between B and horizontal surface as a function of time 't'.

A force F=t is applied to a block A as shoen in figure where t is time in seconds. The force is applied at t=0 seconds when the system was at rest. Which of the following graph correctly gives the frictional force between A and horizontal surface an a function of time t. [Assume that at t=0 , tension in the string connecting the two blocks is zero].

A force shown in the F-x graph is applied to a 2kg block horizontal as shown in figure. The change in kinetic energy is

A time varying force F=2t is applied on a spool as shown in figure. The angular momentum of the spool at time t about bottommost point is

A time varying force F = 2t is applied on a spool as shown in figure. The angular momentum of the spool at time t about bottommost point is:

Two blocks A and B of masses 2kg and 4kg are placed one over the other as shown in figure. A time varying horizontal force F =2t is applied on the upper block as shown in figure. Here t is in second and F is in newton. Drow a graph showing acceleration of A and B on y-axis and time on x-axis.Coefficient of friction between A and B is mu =(1)/(2) and the horizontal surface over which B is placed smooth. (g =10m//s^(2))

A cubical box of side length L rests on a rough horizontal surface having coefficient of friction mu . A variable horizontal force F=alpha t is applied on the top of the block as shown in figure, where alpha is a constant and t is time. The coefficient of friction is sufficient so that the block does not slide before toppling. The graph between torque due to normal reaction about end B and time before toppling start is

A force F=2t is spplied at t=0 sec to the block of mass m placed on a rough horizontal surface. The coefficient of static and kinetic friction between the block and surface are mu_S and mu_k rspectively. Which of the following graphs best represents the acceleration vs time of the block (mu_Sgtmu_k) ?

A force F is applied to the initially, stationary cart. The variation of force with time is shown in the figure. The speed of cart at t = 5 s is

Two blocks A and B are as shown in figure. The minimum horizontal force F applied to the block B for which slipping behins between B and ground is :