In a compound microscope, the objective lens and eyepiece have a focal length of 0.95 cm and 5 cm respectively and are kept at a distance of 20 cm. If the last image is formed at a distance of 25 cm from the eyepiece. Calculated magnifying power.

In a compound microscope, the objective and eye piece have focal lengths 0.95 cm and 5 cm respectively, and are kept at a distance of 20 cm . The final image is formed at a distance of 25 cm from the eye piece. Calculate the position of the object and the total magnification.

A compound microscope consists of two convex lenses having focal length of 1.5cm and 5cm. When an object is kept at a distance of 1.6cm from the objective, the final image is virtual and lies at a distance of 25cm from the eyepiece. Calculate magnifying power of the compound microscope in this set-up.

A compound microscope consists of two convex lenses having focal length 1.5 cm and 5 cm. When an objectt is kept at distance of 1.6 cm from the objective, the final image is virtual and lies at a distance of 25 cm from the eyepiece. Calculate magnifying power of the compound microscope in this set-up.

A compound microscope consists of two convex lenses of focal length 2 cm and 5 cm. When an object is kept at a distance 2.1 cm from the objective, a virtual and magnified image is formed 25 cm from the eye piece. Calculate the magnifying power of the microscope.

A compound microscope has an objective of focal length 2.0 cm and an eye-piece of focal length 6.25cm and distance between the objective and eye-piece is 15cm . If the final image is formed at the least distance vision (25 cm) , the distance of the object form the objective is

An astronomical telesope has objective and eyepiece of focal lengths 40cm and 4 cm respectively. To view an object 200cm away from the objective, the lenses must be separated by a distance :

In a compound microscope, the focal length of the objective and the eye lens are 2.5 cm and 5 cm respectively. An object is placed at 3.75cm before the objective and image is formed at the least distance of distinct vision, then the distance between two lenses will be ( i.e. length of the microscope tube )

The focal lengths of the objective and the eyepiece of an astronomical telescope are 20 cm and 5 cm respectively. If the final image is formed at a distance of 30 cm from the eye piece, find the separation between the lenses for distinct vision:

A compound microscope consists of an objective lens with focal length 1.0 cm and eye piece of the focal length 2.0 cm and a tube 20 cm from eye lens. Now final image is formed at the near point of eye, so find the magnifying power of microscope.

A microscope consisting of two convex lenses of focal lengths 2 cm and 5 cm placed 20 cm apart. Where must the object be placed so that the final image (virtual) is at a distance of 25 cm from eye ?