The diameter of human eye lens is `2 mm`. What should be the minimum separation between two points situated at `50 m` from eye, to resolve tham. Take wavelength of light `= 5000 Å`.

Assuming that the human pupil has a radius of 0.25 cm and a comfortable viewing distance of 25 cm. The minimum separation between two point object that the human eye can resolve for the light of wavelength 500 nm is

What is the minimum angualr separation between two stars, if a telescope is used to observe them with an objective of aperture 0.2 m . Wavelength of light used is 5900 Å .

A telescope has an objective lens of 10cm diameter and is situated at a distance of one kilometre from two objects. The minimum distance between these two objects, which can be resolved by the telescope, when the mean wavelength of light is 5000 Å , of the order of

Assuming human pupil to have a radius of 0.25 cm and a comfortable viewing distance of 25 cm, the minimum separation between two objects than human eye can resolve at 500nm wavelength is :

A telescope has an objective lens of 10 cm, diameter and is situated at a distance of one kilometer from two objects. The minimum distance between these two objects, which can be resolved by the telescope, when the mean wavelength of light is 5000 A, is of the order of (in mm):

An object is placed at a distance of 30 cm from a converging lens of focal length 15 cm. A normal eye (near point 25 cm, far point infinity) is placed close to the lens on the other side. (a) Can the eye see the object clearly? (b) What should be the minimum separation between the lens and the eye so that the eye can clearly see the object? c. Can a diverging lens, placed in contact with the converging lens, help in seeing the object clerly when the eye is close to the lens?

There is a telescope whose objective has a diameter D = 5.0 cm . Find the resolving power of the objective and the minimum separation between two points at a distance l = 3.0km from the telescope, which it can resolve (assume lambda = 0.55 mu m) .

The diameter of the pupil of human eye is 2.5 mm. Assuming the wavelength of light used is 5000Å . What must be the minimum distance between two point like objects to the seen clearly if they are a distance of 5 m from the eye?

A telescope has an objective lens of diameter 5 inch, determine the minimum angular separation between two distant objects for light of wavelength 6,000 Å