A force `F= 2t^2` is applied to the cart of mass 10 Kg, initially at rest. The speed of the cart at t = 5 s is -

Two blocks M_1 . and M_2 , are tied with string and kept at rough surface as shown in figure. If F = (2t)N is applied on the block of mass M_1 , then the friction force on the blocks at t = 2 s. is

A force acts for 0.1 s on a body of mass 1.2 kg initially at rest. The force then ceases to act and the body moves thorugh 2 m in the next 1.0 s . Find the magnitude of force.

A constant retarding force of 50N is apllied to a body of mass 10kg moving initially with a speed of 10ms^(-1) . The body comes to rest after

In the figure at the free end a force F is applied to keep the suspended mass of 18 kg at rest. The value of F is :

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 sec is

In the figure shown, the cart of mass 6m is initially at rest. A particle of mass in is attached to the end of the light rod which can rotate freely about A . If the rod is released from rest in a horizontal position shown, determine the velocity v_(rel) of the particle with respect to the cart when the rod is vertical.

A block B is placed over a cart which in turn lies over a smooth horizontal floor. Block A and Block C are connected to block B with light inextensible strings passing over light frictionless pulleys fixed to the cart as shown. Initially the blocks and the cart are at rest. All the three blocks have mass m and the cart has mass M(M=3m) . Now a constant horizontal force of magnitude F is applied to block A towards right. Q. Let the coefficient of friction between block B and cart is mu(mugt0) and friction is absent everywhere else. Then the maximum value of force F applied to block A such that there is no relative acceleration between block B and cart is

An object of mass 3 kg is at rest . Now a force F= 6t^(2) hati + 2thatj is applied on the object . Find the velocity of the object at t =3 sec.

A block B is placed over a cart which in turn lies over a smooth horizontal floor. Block A and Block C are connected to block B with light inextensible strings passing over light frictionless pulleys fixed to the cart as shown. Initially the blocks and the cart are at rest. All the three blocks have mass m and the cart has mass M(M=3m) . Now a constant horizontal force of magnitude F is applied to block A towards right. Assuming friction to be absent everywhere, the magnitude of acceleration of cart at the shoen instant is

A 2kg toy car can move along an x axis. Graph shows force F_(x) , acting on the car which being at rest at time t=0 . The velocity of the particle at t=10s is: