A uniform rod of mass `m=2kg` and length `l=0.5m` is sliding along two mutually perpendicular smooth walls with the two ends P and Q having velocities `U_(P)=4m//s` and `v_(Q)=3m//s` as shown then

A uniform rod of mass 3 m and length l is lying on a smooth horizontal surface. Two particle of mass m and 2 m moving with speed 2v_(0) and v_(0) in the opposite directly hit the rod perpendicularly at a distance (l)/(3) and (l)/(6) from the midpoint O of the rod ad stick to it after collision. if the loss in kinetic energy of the system due to collision is (n)/(5)mv_(0)^(2) find the value of n.

A uniform rod of mass m=2 kg and length l is kept on a smooth horizontal plane. If the ends A and B of the rod move with speeds v and 2v respectively perpendicular to the rod, find the: a. angulr velocity of CM of the rod. b. Kinetic energy of the rod (in Joule).

A uniform rod AB of mass m = 2 kg and length l = 1.0 m is placed on a sharp support P such that a = 0.4 m and b = 0.6 m . A. spring of force constant k= 600 N//m is attached to end B as shown in Fig. To keep the rod horizontal, its end A is tied with a thread such that the spring is B elongated by 1 CM . Calculate reaction of support P when the thread is burnt.

A rigid uniform rod of mass M and length L is placed along the Y-axis on a smooth horizontal surface with its centre at the origin. Two particles , each of mas m ( = M //12) hits simultaneously , at the two ends with equal speed v as shown in the figure. The collision is completely inelastic. (i) Find the angular velocity of the system after the collision. (ii) Two particles of mass 2m and m are placed respectively at ( L//2, 0) and ( - L//2, 0) . Calculate the time when the rod hits these particles.

Calculate the moment of inertia of a uniform rod of mass M and length l about an axis passing through an end and perpendicular to the rod. The rod can be divided into a number of mass elements along the length of the rod.

A uniform chain of mass per unit length lambda is sliding down the hill with constant speed u. Dimension of the hill are h and d as shown. Find the momentum of the chain at the instant shown. (given lambda=1kg//m, d=3m, h=4m, and u=1m//s )

A uniform rod of mass M and length a lies on a smooth horizontal plane. A particle of mass m moving at a speed v perpendicular to the length of the rod strikes it at a distance a/4 from the centre and stops after the collision. Find a. the velocity of the cente of the rod and b. the angular velocity of the rod abut its centre just after the collision.

A uniform rod of mass M and length l is placed on a smooth- horizontal surface with its one end pivoted to the surface. A small ball of mass m moving along the surface with a velocity v_(0) , perpendicular to the rod, collides elastically with the free end of the rod. Find: a. the angular velocity of the rod after collision. b. the impulse applied by the pivot on the rod during collision. (Take M//m = 2 )

A uniform rod of mass M and length L falls when it is made to stand on a smooth horizontal floor. The trajectories of the points P,Q and R as shown in the figure given below is best represented by :

A horizontal rod of mass M and length L is tied to two verticle string symmetrically as shown in the figure. One of the strings at end Q is cut at t=0 and the rod starts rotating about the other and P then