Two slits are separated by a distance of 0.5 mm and illuminated with light of `lambda=6000Å`. If the screen is placed 2.5 m, form the slits. The distance of the third bright image from the center will be

Two slits are separated by a distance of 0.5mm and illuminated with light of lambda=6000Å . If the screen is placed 2.5m from the slits. The distance of the third bright image from the centre will be

Two slits separated by a distance of 1 mm are illuminated with red light of wavelength 6.5xx10^(-7) m. The interference firnges are observed on a screen placed 1 m form the slits. The distance between third bright firnge and the fifth dark fringe on the same side is equal to

Two slits, 4 mm apart, are illuminated by light of wavelength 6000 Å . What will be the fringe width on a screen placed 2 m from the slits

The two slits are 1 mm apart from each other and illuminated with a light of wavelength 5xx10^(-7) m. If the distance of the screen is 1 m from the slits, then the distance between third dark fringe and fifth bright fringe is

A single slit of width 0.1mm is illuminated by parallel light of wavelength 6000Å, and diffraction bands are observed on a screen 40cm from the slit. The distance of third dark band from the central bright band is:

A single slit of width 0.1 mm is illuminated by a parallel beam of light of wavelength 6000Å and diffraction bands are observed on a screen 0.5 m from the slit. The distance of the third dark band from the central bright band is _______ mm.

A single slit of width 0.1 mm is illuminated by a parallel beam of light of wavelength 6000Å and diffraction bands are observed on a screen 0.5 m from the slit. The distance of the third dark band from the central bright band is _______ mm.

In Young's experiment interference bands are produced on the screen placed at 1.5m from the slits 0.15mm apart and illuminated by light of wavelength 6000 Å . If the screen is now taken away from the slit by 50 cm the change in the fringe width will be

In Young's experiment the slits, separated by d = 0.8 mm , are illuminated with light of wavelength 7200 Å, Interference pattern is obtained on a screen D = 2 m from the slits. Find minimum distance from central maximum at which the a average intensity is 50% if of maximum?

A screen is at a distance of 2m from a narrow slit illuminated with light of 600nm. The first minimum lies 5mm on either side of the central maximum. The width of slit is