Two points sources distance `0.1` m are viewed by a telescope. The objective is covered by ascreen having a hole of 1 mm widht. If the wavelenghts of light used is 5000Å, the the maximum distance at which the two sources are seen just resolved, will be

Two point sources distant 0.1 meter away viewed by a telescope. The objective is covered by a terlescope. The objective is covered by a screen having a hole of 1 mm width. If the wavelength of the light used is 6500 Å , then maximum distance at which the two sources are seen just resolved, will be nearly

A telescop with an objective aperture 0.25 m is uded to obseve two stars. If the wavelength of light used is 5000Å . Find the minimum angular sepration between them.

Two stars are situated at a distance of 8 light years from the earth. These are to be just resolved by a telescope of diameter 0.25 m. If the wavelength of light used is 5000 Å, then the distance between the stars must be

Two luminous point sources separated by a certain distance are at 10 km from an observer. If the aperture of his eye is 2.5xx10^(-3)m and the wavelength of light used is 500 nm, the distance of separation between the point sources just seen to be resolved is

What is the resolving power of a telescope if the diameter of the objective of the telescope is 1.22 m and the wavelength of light is 5000 Å ?

In a biprism experiment, the distance between the two virtual sources is 0.1 mm and the screen is placed at 100 cm from the slits. If the wavelength of light used is 5000 Å, then the distance of the 4th bright band from the central bright band will be

A point P is situated at 40.1 cm and 40.2 cm away from two coherent sources. If the wavelength of light used is 5000 Å, then the point P

The distance between two coherent sources is 0.1 mm. The fringe-width on a screen 1.2 m away from the source is 6.0 mm. The wavelength of light used is

If aperture diameter of the lens of a telescope is 1.25 m and wavelength of light used is 5000 Å its resolving power is