In Young's experiment, interference pattern is obtained on a screen at a distance of `1 m` from slits separated by `0.05 cm` and illuminated by sodium light of wavelength `5893 Å`. Calculate distance between `4th` bright fringe on one side and 3rd bright fringe on other side of central bright fringe.

In Young's double -slit experiment, the slits are 0.5 cm apart and screen is 1m away. The slits are illuminated by sodium light of wavelength 6890 Å . What will be the distance between 3^(rd) bright fringe on one side and 4^(th) bright fringe on other side of central fringe.

In YDSE, two slits are separated by 3 mm and illuminated by light of wavelength 480 nm . The screen is 2 m from the plane of slits. Calculate the separation between 8th bright fringe and 3rd dark fringe observed on the same side of central bright fringe.

A young's double slit apporatus is immersed in a liquid of refractive index 1.33.It has slit separation of 1 mm and interference pattern is observed on the screen at a distance 1.33 m from plane of slits.The wavelength in air is 6300 Å Find the distance of seventh bright fringe from third bright fringe lying on the same side of central bright fringe.

A young's double slit apparatus is immerged in a liquid of refractive index 4/3 . It has slit separation of 1mm and interference pattern is observed on the screen at a distance 4/3 m from plane of slits. The wavelength in air is 6300 Å Find the distance of seventh bright fringe from third bright fringe lying on the same side of central bright fringe

In Young's double-slit experiment, interference pattern is observed at a distance of 1m. If light used has a frequency of 6 xx 10^(14) Hz and slit separation distance is equal to 0.05 mm, calculate the distance between fourth bright fringe and centre.

In Young's double slit experiment, the slits are 0.5mm apart and interference pattern is observed on a screen placed at a distance of 1.0m from the plane containg the slits. If wavelength of the incident light is 6000Å , then the separation between the third bright fringe and the central maxima is

The distance of n^(th) bright fringe from the centre of the interference pattern is

The distance of n^(th) bright fringe to the (n+1)^(th) dark fringe in Young's experiment is equal to:

In Young's double slit experiment the interference pattern is found to have an intensity ratio between bright and dark fringes as 9. This implies

In a YDSE setup sodium light of wavelength 5893 Å is being used. The interference pattern is obtained on a screen which is located at a distance 1 m from the slit plane. In the interference pattern it is observed that 10^(th) bright fringe is located at a distance of 12mm from the central maximum. Find the slit separation.