In fig., light of wavelength `lambda = 5000 Å` is incident on the slits (in a horizontally fixed place).
Here, `d = 1 mm` and `D = 1 m`
Take origin at O and XY plane as shown in the figure. The screen is released from rest from the initial position as shown

Acceleration of 3rd maxima w.r.t. 3rd maxiam on other side of central maxima at `t = 3` s is

In fig., light of wavelength lambda = 5000 Å is incident on the slits (in a horizontally fixed place). Here, d = 1 mm and D = 1 m Take origin at O and XY plane as shown in the figure. The screen is released from rest from the initial position as shown The velocity of central maxima at t = 5 s is

In fig., light of wavelength lambda = 5000 Å is incident on the slits (in a horizontally fixed place). Here, d = 1 mm and D = 1 m Take origin at O and XY plane as shown in the figure. The screen is released from rest from the initial position as shown Velocity of 2nd maixma w.r.t central maxima at t = 2 s is

Light of wavelength 5000Å is incident over a slit of width 1 mu m . The angular width of central maxima will be

In YDSE monochromatic light of wavelength 600 nm incident of slits as shown in figure. If S_(1)S_(2) = 3mm, OP=11 mm then

The light of wavelength 6328Å is incident on a slit of width 0.2mm perpendicularly, the angular width of central maxima will be

Light of wavelength 5000 Å is incident on a slit of width 0.1 mm. Find out the width of the central bright line on a screen distance 2m from the slit?

Light of wavelength 6000 o A is incident on a slit of width 0.30 mm. The screen is placed 2 m from the slit. find the position of the first dark fringe

A coherent beam light of intensity I and absolute wavelength lambda= 5000Å is being incident on the slits making an angle 30^@ with horizontal. If screen is placed at a distance D=1 m from the slits and the separation between- the slits is 3 xx 10^(-4) m . A thin film of glass mu_(g) = 3/2 and thickness 0.41 mm is placed near one slit as shown in the figure, find (a) the position of central maxima. (b) the intensity at'point O.

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.

Light of wavelength lambda is incident on a slit of width d and distance between screen and slit is D. Then width of maxima and width of slit will be equal if D is ––