An object of mass m is moving with velocity ữ towards a plane mirror kept on a stand as shown in the figure. The mass of the mirror and stand system is m. A head- on elastic collision takes place between the object and the mirror stand the velocity of image before and after the collision is

If an object moves towards a plane mirror with a speed v at an angle theta to the perpendicular to the plane of the mirror, find the relative velocity between the object and the image.

A person moves with a velocity v towards a plane mirror. With what velocity does his image move towards him ?

A particle of mass m moving with velocity vecV makes a head on elastic collision with another particle of same mass initially at rest. The velocity of the first particle after the collision will be

An object is moving towards a mirror with a velocity of 10 ms^(-1) as shown in the figure. If the collision between the mirror and the object is perfectly elastic, then the velocity of the image after collision with mirror in vector form is

An object is moving towards a convex mirror with a constant velocity. P is the pole of mirror.

An object is moving towards a stationary plane mirror wiyh a speed of 2 m/s. Velocity of the image w.r.t. the object 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?

An object kept on the principle axis is moving in the sme directions as that of mirror as shown in the figure. Speed of object and mirror is 10(m)/(s) and (40)/(13)(m)/(s) . Radius of the curvature of the mirror is 20 cm. If the distance of object from the mirror at this instant is 5x cm, velocity of image at this instant is found to be zero. Find x.