Two pucks are initially moving along a frictionless surface as shown in the diagram. The pucks have mass `m_(1)ltm_(2)` and begin with equal magnitude of momentum. A constant force `vec(F)` is applied to each puck direactly to the right for the same amount of non`-`zero time. After the pushes are complete, what is the relationship for the size of the moments of pucks (`p_(1)` and `p_(2)`) ?

Two object are initially at rest on a frictionless surface. Object 1 has a greater mass than object 2. The same constant force start to act on each object. The force is removed from each object after it accelerates over a distance d. after the force is removed from both objects, which statement is correct (p:momentum, K: kinetic energy)?

A small puck is sliding to the right with momentum vec(P)_(1) on a horizontal, frictionless surface, as shown in figure. A force is applied to the puck for a short time and its momentum afterward is vec(P)_(f) . Which lettered arrow shows the direction of the impulse that was delovered to the puck ?

Two blocks are in contact on a frictionless table. A horizontal force is applied to the larger block, as shown in Fig. 5-53. (a) If m_(1)=2.3" kg", m_(2)=1.2" kg", and F = 3.2 N, find the magnitude of the force between the two blocks. (b) Show that if a force of the same magnitude F is applied to the smaller block but in the opposite direction, the magnitude of the force between the blocks is 2.1 N, which is not the same value calculated in (a). (c) Explain the difference.

Five identical cubes each of mass 'm' are on a straight line with two adjacent faces in contact on a horizontal surface as shown in the figure-2.187. Suppose the surface is frictionless and a constant force P is applied from left to right to the end face of A. which of the following statements are correct :

A 4.0-kg block slides along a frictionless surface with a constant speed of 5.0 m/s as shown. Two seconds after it begins sliding, a horizontal, time-dependent force is applied to the mass. The force is removed 8 s later. The graph shows how the force on the block varies with time. What is the approximate speed of the block at t =11 s?

A solid sphere of mass m and radius R is on a rough surface as shown in figure. Two forces having magnitude 2F and F are applied as shown. If the sphere perfors pure rolling along right direction, then frictional force acting on the sphere is

Three blocks of masses m_(1), m_(2) and M are arranged as shown in figure. All the surfaces are fricationless and string is inextensible. Pulleys are light. A constant force F is applied on block of mass m_(1) . Pulleys and string are light. Part of the string connecting both pulleys is vertical and part of the strings connecting pulleys with masses m_(1) and m_(2) are horizontal. {:((P),"Accleration of mass " m_(1),(1) F/(m_(1))),((Q),"Acceleration of mass" m_(2),(2) F/(m_(1)+m_(2))),((R),"Acceleration of mass M",(3) "zero"),((S), "Tension in the string",(4) (m_(2)F)/(m_(1)+m_(2))):}

A body of mass m is travelling with a velocity vu. When a constant retarding force F is applied, it comes to rest after travelling a distance s_(1) . If the initial velocity is 2u with the same force F, the distance travelled before it comes to rest is s_(2) . then,