A telescope consists of two lenses of focal lengths `0.3 m and 3 cm` respectively. It is fucussed on moon which subtends an angle of `0.5^@` at the obejctive. Calculate the angle subtended at the eye by the final image in normal adjustment of the telescope.

A telescope consists of two lenses of focal lengths 20 cm and 5 cm . Obtain its magnifying power when final image is (i) at infinity (ii) at 25 cm from the eye.

Two convex lenses of focal length 20 cm and 1 cm constitute a telescope. The telescope is focussed on a point which is 1 m away from the objective. Calculate the magnification produced and the length of the tube. If the final image is formed at distance of 25 cm from of eyepiece.

The focal length of the objective and eye piece of a telescope are respectively 100 cm and 2 cm . The moon subtends and angle of 0.5^2 , the angle subtended by the moon's image will be.

A telescope consists of two lenses of focal lengths 10cm and 1cm . Calculate the length of the telescope, when an object is kept at a distance of 60cm from the objective, and the final image is formed at least distance of distinct vision.

A telescope has two convex lenses of focal lengths 10 cm and 1 cm. If the telescope is focussed on a scale 1 m away from the objective and the final image is formed 25 cm away from the eye, calculate the magnification produced.

The Moon is viewed by the telescope which consists of two lenses of focal lengths 5 m and 10 cm . Calculate the angle subtended by the eye at the final image. The diameter of the Moon is 3.5xx10^(3) km and its distance from the Earth is approximately 4xx10^(5) km .