Dimeter of juman eye lens is `2 mm.` What will be the minumum distance between two points to resolve them, which are situated at a distance of 50 m from eye ? [The wavelength of light is `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 .

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

A telescope of aperture diameter 5m is used to observe the moon from the earth. Distance between the moon and earth is 4 xx 10^5 km. Determine the minimum distance between two points on the moon's surface which can be resolved using this telescope. (Wave length of light is 5893 A^@ .

A telescope of aperture diameter 5m is used to observe the moon from the earth. Distance between the moon and earth is 4 xx 10^5 km. Determine the minimum distance between two points on the moon's surface which can be resolved using this telescope. (Wave length of light is 5893 A^@ .

In the Young's double slit experiment, the spacing between two slits is 0.1mm . If the screen is kept at a distance of 1.0m from the slits and the wavelength of ligth is 5000Å , then the fringe width is

Fraunhoffer diffraction pattern of a single slit is obtained in the focal plane of lens of focal length 1m . If third minimum is formed at a distance of 5mm from the central maximum and wavelength of light used is 5000Å , then width of the slit will be –

With two slits spaced 0.2 mm apart and a screen at a distance of 1 m, the third bright fringe is found to be at 7.5 mm from the central fringe. The wavelength of light used is

A lens of focal length 20.0 cm and aperture radius 2.0cm is placed at a distance 30.cm from a point source of light. On the other side a screen is placed at a distance 50.0cm from the lens. The radius of spot of light formed on screen is (neglect spherical abberation through lens)

Two point white dots are 1mm apart on a black paper. They are viewed by eye of pupil diameter 3mm. Approximately, what is the maximum distance at which these dots can be resolved by the eye? [Take wavelelngth of light =500nm]