If the optic axis of convex and concave lenses are separated by a distance `5 mm` as shown in the figure. Find the coordinate of the final image formed by the combination if parallel beam of light is incident on lens. Origin is at the optical centre of convex lens

A point ofject 'O' lies in front of the lens as shown in figure. Find the final position of image formed by the combined lenses.

Two convex lenses of power 2 D and 3 D are separated by a distance 1/3m . The power of the optical system formed is

Two converging lenses of the same focal length f are separated by a distance 2f. The axis of the second lens is inclined at angle theta=60^@ with respect to the axis of the first lens. A parallel paraxial beam of light is incident from left side of the lens. Find the coordinates of the final image with respect to the origin of the first lens.

A point object O is placed at a distance of 15 cm from a convex lens L of focal length 10 cm as shown in figure below. On the other side of the lens, a convex mirror M is placed such that its distance from the lens is equal to the focal length of the lens. The final image formed by this combination is observed to coincide with the object 0. Find the focal length of the convex mirror.

A convex lens is made up of three different materials as shown in the figure. For a point object placed on its axis, the number of images formed are

AB is the optic axis of a lens. Lens is not shown in the figure. O and I are the position of object and image. Then match of following.

A convex lens of focal length 1.0m and a concave lens of focal length 0.25m are 0.75m apart. A parallel beam of light is incident on the convex lens. The beam emerging after refraction from both lenses is

A point object is placed on the optic axis of a convex lens of focal length f at a distance of 2f to the left it. The diameter of the lens d. An eye is placed are distance of 3f to the right of the lens and a distance below the optic axis. The maximum value of h to the image is

A thin convex lens (L_(1)) of focal length 80 cm and a thin concave lens (L_(2)) of focal length f are kept co-axially, 20 cm apart as shown in figure below. When a narrow and parallel beam of light is incident on the conver lens, beam emerging from the concave lens is also a parallel beam. Find f.

A convex lens is cut in half along its principal axis and the two halves are separated by a distance of 12cm. An object is placed 6cm in front of the lens as shown in Figure., Two sharp images are formed on the screen placed 80cm from the object. What is the focal length of the lens?