The object of astronomical telescope has

The objective of an astronomical telescope has a diameter of 100 cm . Calculate the smallest angualr separation of two stars that can just be resolved by the telescope, take lambda = 5000 Å .

The objective of an astronomical telescope has a focal length of 80cm . The telescope is focused for normal vision of distant objects when the tube length is 1.0m .If the focal length of eye piece is f_(e) (in cm ) and magnifying power of telescope is m then the value of (f_(e))/(m) is :

The objective of an astronomical telescope has a diameter of 150 mm and focal length of 4.0 m . The eye piece has a focal length of 25.0 mm . Calculate the magnifying power and resolving power of telescope. What is the distance between objective and eye piece ? Take lambda = 6000Å .

A lens of large focal length and large aperture is best suited as an objective of an astronomical telescope since:

The eye-piece of an astronomical telescope has focal length of 10 cm. The telescope is focused for normal vision of distant objects when the tube length is 1.0 m. Find the focal length of the objective and the magnifying power of the telescope.

When diameter of the aperture of the objective of an astronomical telescope is increased, its

When diameter of objective of an astronomical telescope is doubled, its limit of resolution is