Tow objects A and B are moving towards each other with velocities `10 m//s `and `12 m//s` respectively as shown.

(i)Find out velocity of A with respect to B.
(ii)Find out velocity of B with respect to A.

Consdier the situation shown in figure (I ) find out velocity of B with respect to A (ii ) Find out velocity of A with respect to B

Two objects A and B are moving in opposite directions with velocities v_(A) and v_(B) respectively, the magnitude of relative velocity of A w.r.t. B is

Two object A and B are moving each with velocities 10 m/s. A is moving towards East and B is moving towards North from the same point as shown. Find velocity of A relative to B (vecV_(AB))

Two identical particles move towards each other with velocity 2v and v, respectively. The velocity of the centre of mass is:

Two balls of masses 2 kg and 4 kg are moved towards each other with velocities 4m//s and 2m//s , respectively, on a frictionless surface. After colliding, the 2kg ball returns back with velocity 2m//s . then find a. velocity of the 4 kg after collision b. coefficient of restitution e, c. impulse of deformation J_(D) d. maximum potential energy of deformation, e. impulse of reformation J_(R)

An object and a concave mirror are approaching each other with velocities 10 m/s and 5 m/s as shown in figure. The velocity of image of object at the instant shown in figure is

A point object O and a mirror M move with velocities of 3 cm s^(-1) and 4 cm s^(-1) , respectively as shown in the figure. OO' is the normal to the mirror. What is the velocity of the image?

A and B are thrown vertivally upward with velocity 5m/s and 10 m/s respectively (g=10 m//s^2 ) . Find separtion between them after one second .

Two balls of masses m each are moving at right angle to each other with velocities 6 m/s and 8 m/s respectively. If collision between them is perfectly inelastic, the velocity of combined mass is

Two particles 1 and 2 are thrown in the directions shown in figure simultaneously with velocities 5 m//s and 20 m//s. Initially, particle 1 is at height 20 m from the ground. Taking upwards as the positive direction, find (a) acceleration of 1 with respect to 2 (b) initial velocity of with respect to 1 (c) velocity of 1 with respect to 2 after time t= 1/2 s (d) time when the particles will collide.