In a standard `YDSE` apparatus a time film `(mu=1.5,t=2.1mum)` is placed in front of upper slit.How far above or below the center point of the screen are two nearest maximum located? Take `D=1m,d=1mm,lambda=4500Å`.(Symbols have usual meaning).

In a regular YDSE, when thin film of refractive index mu is placed in front of the upper slit then it is observed that the intensity at the central point becomes half of the original intensity. It is also observed that the initial 3^(rd) maxima is now below the central point and the initial 4^(th) minima is above the central point. Now, a film of refractive index mu_(1) and thickness same as the above film. is put in the front of the lower slit also. It is observed that whole fringe pattern shifts by one fringe width. What is the value of mu_(1) ?

In YDSE, find the thickness of a glass slab (mu=1.5) which should be placed in front of the upper slit S_1 so that the central maximum now lies at a point where 5th bright fringe was lying earlier (before inserting the slab). Wavelength of light used is 5000 Å .

Monochromatic light of lamba=5000Å is incident on two slits separately by a distance of 5xx10^(-4)m . The interference patteren is seen on a screen placed at a distance of 1m form the slits. A thing glass plate of thicknes 1.5xx10^(-6)m and refractive index mu=1.5 is placed between one of the slits and the screen. Find the intensity at the centre of the screen if the density there is I_(0) in the absence of the plate. Also find the lateral shift of the central maximum. '

In a YDSE, D = 1m, d = 1mm and lambda = 1//2 mm Find a distance between the first and central maxima on the screen.

A plane wavefront (wavelength =lambda ) is falling on YDSE apparatus as shown in the figure. The lower half of it is filled with water (refractive index =1.5 ). How many maximas can be theoretically obtained on the screen if d=98 lambda and D=20000 lambda (including the maxima at infinity)

In a YDSE experiment, d = 1mm, lambda = 6000Å and D= 1m. The minimum distance between two points on screen having 75% intensity of the maximum intensity will be

Figure shows a YDSE setup having identical slits S_(1) and S_(2) with d =5 mm and D = 1 m. A monochromatic light of wavelength lamda = 6000 Å is incident on the plane of slit due to which at screen centre O, an intensity I_(0) is produced with fringe pattern on both sides Now a thin transparent film of 11 mu m thickness and refractive index mu = 2.1 is placed in front of slit S_(1) and now interference patten is observed again on screen. Due to placement of film in front of S_(1) , how many bright fringes cross the point O of screen excluding the one which was at O earlier :

In a YDSE, D = 1 M, d = 1 mm, and lambda = 1//2 mm. (a) Find the distance between the first and central maxima on the screen. (b) Find the number of maxima and minima obtained on the screen.

In standard Young's double - slit experiment, visible light lambdain(350 nm, 750 nm) is used in both the slits. Distance between the slits is 2 mm, and the distance of the screen from the slits is 1 m. A thin glass slab (mu=1.5) of thickness 6mum is placed in front of slit S_(2) . Which among the following wavelength is missing at point P, which is directly in front of slit S_(2) ? (Neglect dispersion of light)

If a transparent medium of refractive index mu=1.5 and thickness t=2.5xx10^-5m is inserted in front of one of the slits of Young's Double Slit experiment, how much will be the shift in the interference patten? The distance between the slits is 0.5mm and that between slits and screen is 100cm