Laser light of wavelength 630 nm is incident on a pair of slits which are separated by 1.8 mm. If the screen is kept 80 cm away from the two slits, calculate :
distance of 10th bright fringe from the centre of the interference pattern.

Laser light of wavelength 630 nm is incident on a pair of slits which are separated by 1.8 mm. If the screen is kept 80 cm away from the two slits, calculate : fringe separation i.e., fringe width

(a) (i) Write Einstein.s photo electric equation. (ii) if the frequency of the incident radiation is increased from 4xx10^(15) Hz to 8xx10^(15) Hz by how much will the stopping potential for a given photosensitive surface go up ? (b) Laser light of wavelength 630 nmis incident on a pair of slits which are separated by 1.8 mm. If the screen is kept 80 cm away from the two slits. calculate : (i) fringe separation i.e., fringr width (ii) distance of 10^("th") bright fringe from the centre of the interference pattern.

Light of wavelength 580 nm is incident on a slit having a width of 0.300 nm The viewing screen is 2.00 m from the slit. Find the positions of the first dark fringe and the width of the central bright fringe.

Light of wavelength 6000Å is incident on a slit of width 0.30 mm. The screen is placed 2 m from the slit. Find (a) the position of the first dark fringe and (b). The width of the central bright fringe.

In Young’s double slit experiment, using light of wavelength 600 nm, 10^(th) bright fringe is obtained on a screen, 3mm from the centre of the pattern. If the screen is 120 cm away from the slits, calculate: (i) Distance between the two slits, (ii) Fringe width, i.e. fringe separation.

In Young.s double slit experiment, the screen is kept at a distance of 1.2m from the plane of the slits. The two slits are separated by 5mm and illuminated with monochromatic light having wavelength 600 mm. Calculate: Distance of 10^(th) bright frings from the centre of the pattern.

Laser light of wavelength 630 nm incident on a pair of slits produces an interference pattern where bright fringes are separated by 8.1 mm . Another light produces the interference pattern, where the bright fringes are separated by 7.2 mm . Calculate the wavelength of second light.

In Young.s double slit experiment using monochromatic light of wavelength 600 nm, 5th bright fringe is at a distance of 0.48 mm from the centre of the pattern. If the screen is at a distance of 80 cm from the plane of the two slits, calculate : Distance between the two slits.

Light of wavelength 6000A^(0) is incident on a single slit. The first minimum of the diffraction pattern is obtained at 4 mm from the centre. The screen is at a distance of 2m from the slit. The slit width will be

Coherent light with wavelength 600nm passes through two very narrow slits and the interference pattern is observed on a screen 3.00 m from the slits. The first order bright fringe is at 4.94 mm from the centre of the central bright fringe. For what wavelength of light will the first order dark fringe be observed at this same point on the screen?