Consider a point object moving towards a stationary plane mirror with velocity 5m`//`s. Find velocity of image w.r.t

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

As an object moves towards a convex mirror, the image

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

A plane mirror is placed along the x-axis facing negative y-axis. The mirror is fixed, A point object is moving with 3hati+4hatj in front of the plane mirror. The relative velocity of image with respect to its object is

Out of the two cars A and B car A is moving towards east with velocity of 10 m/s whereas B is moving towards north with a velocity 20 m/s, then velocity of A w.r.t B is ( nearly )

Assertion : When object moves in a direction perpendicular to a fixed plane mirror then velocity of image with respect object is double in magnitude to the magnitude of velocity of object. Reason : Distance of image from the plane mirror is always same as distance of object from the plane mirror.

When a person moves towards a mirror with velocity 3v, by which velocity his image moves relative to himself ?

(a) In the figure shown a slab of refractive index (3)/(2) is moved toward a stationary observer with speed 6 cm//s . A point O is observed by the observer with the help of paraxial rays through the slab. Both O and observer lie in are. Find the velocity (in cm//s ) with which the image will appear to move to observer. (b) in the previous question if the object moves towards rigth with a velocity of 6 cm//s and find the velocity of the final image (in cm//s ) as seen by observer :

A spherical mirror from image at distance 10 cm of an object at distance 30 cm from mirror. If object start moving with velocity 9cm/sec. Find velocity of image