A biconvex lens of focal length f forms a circular image of radius r of sun is focal plane. Then, which option is correct?

Rays of light from Sunn falls on a biconvex lens of focal length f an the circular image of Sun of radius r is formed on the focal plane of the lens. Then,

A convex lens of focal length f forms an image which is 1/3 times the size of the object. Then, the distance of object from the lens is

A convex lens of focal length f produces an image 1/n times than that of the size of the object. The distance of the object from the lens is:

The image of an object, formed by a combination of a convex lens (of focal length f) and a convex mirror (of radius of curvature R), set up as shown is observed to coincide with the object. Redraw this diagram to mark on it the position of the centre of the mirror. Obtain the expression for R in terms of the distances, marked as a and d, and the focal lenght f, of the convex lens.

A concave lens is placed in contact with a convex lens of focal length 25 cm . The combination produces a real image at a distance of 80 cm , when an object is at a distance of 40 cm . What is the focal length of concave lens ?

If a equiconvex lens of focal length f is cut into two halves by a plane perpendicular to the principal axis, then

A convex lens of focal length 30 cm forms an image of height 2 cm for an object situated at infinity. If a concave lens of focal length 20 cm is placed coaxially at a distance of 26 cm from convex lens then size of image would be

A convex lens of focal length 40 cm is in contact with a concave lens of focal length 25 cm. The power of the combination is

A biconvex lens has focal length (2)/(3) times the radius of curvature of either surface. Calculate refraction index f material of the lens.

A biconvex lens has focal length (2)/(3) times the radius of curvature of either surface. Calculate refraction index f material of the lens.