A particle is moving at a constant speed V from a large distance towards a concave mirror of radius R along its principal axis. Find the speed of the image formed by the mirror as a function of the distance x of the particle from the mirror.

A particle is dropped along the axis from a height (f)/(2) on a concave mirror of focal length f as shown in figure. Find the maximum speed of image .

A slab of glass, of thickness 6 cm and refractive index mu =1.5 is placed in front of a concave mirror. If the radius of curvature of the mirror is 40 cm and the reflected image coincides with the object, then the distance of the object from the mirror is

The diameter of the sun subtends an angle of 0.5^(@) at the pole of the concave mirror. The radius of curvature of the mirror is 1.5 m. Find the diameter of the image of the sun. Consider the distance of sun from the mirror infinite

A ray of light is incident on a concave mirror . It is parallel to the principal axis and its height from principal axis is equal to the focal length of the mirror. The ratio of the distance of point B to the distance of the focus from the centre of curvature is (AB is the reflected ray)

The focus of a parabolic mirror as shown in Fig. is at a distance of 5 cm from its vertex. If the mirror is 45 cm deep, find the distance AB.

A particle is moving with constant speed v on a circular path of 'r' radius when it has moved by angle 60^(@) , Find (i) Displacement of particle (ii) Average velocity (iii) Average acceleration

An infinitely long rod lies along the axis of a concave mirror of focal length f. The near end of the rod is distance u gt f from the mirror. Its image will have length

If real image obtained from concave mirror of focal length f is n times of object, then find object distance.

A real object is placed at a distance f from the pole of a convex mirror, in front of the convex mirror. If focal length of the mirror is f, then distance of the image from the pole of the mirror is ........