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 that human eye can resolve at 500 nm wavelength is

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 :

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 :

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 :

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

A microscope has an objective of aperture 8 mm and focal length of 5cm .The minimum separation between two objects to be just resolved by the microscope is (wavelength of light used = 5500 Å

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 .

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 .

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 .