In Young’s experiment, fringe width was found to be 0.4 mm. If whole apparatus is immersed in water of `n = 4//3`, new fringe width in mm is

In Young’s double slit experiment, fringe width decreases by 25% when apparatus is immersed in a liquid. Refractive index of liquid is

If the apparatus used in YDSE is immersed in water then what will happen to the fringe width.

In young's double slit experiment, distance between the slits is 1mm. The fringe width is found to be 0.6 mm. When the screen is moved through a distance of 0.25 m, the fringe width becomes 0.75 mm. Find the wavelength of light used.

In Young's double slit experiment, the fringe width is beta . If the entire arrangement is placed in a liquid of refractive index n, the fringe width becomes

In a Young.s slit experiment, the slits are separated by 0.24 mm and the screen is kept 160 cm from the slits. If the fringe width is measured to be 0.4 cm, calculate the wavelength of light used experiment. What would be the new value of the .fringe width., if for the same set up or the same wavelength light, the screen is moved, .inwards., i.e., towards the slits by 40 cm?

In Young's experiement the width of the fringes obtained with light of wavelength 6000Å is 2mm . Calculate the fringe width if the entire apparatus is immersed in a liquid of refractive index 1.33 . Data : lambda=6000Å=6xx10^(-7)m , beta=2mm=2xx10^(-3)m mu=1.33 , beta=?

In Young’s experiment, the interference pattern is found to have an intensity ratio between the bright and dark fringes as 9. What is the ratio of intensity of two interfering waves ?