In figure, if a parallel beam of white light is incident on the plane of the slit, then the distance of the nearest white spot on the screen form O is [assume `d lt lt D, lambda lt lt D`]

In the figure , if a parallel beam of white light is incident on the plane of the slits S_1 and S_2 then the distance of the nearest white spot on the screen from O is [ Assume D gtgtd, d gtgtlamda ]

In figure, parallel beam of light is incident on the plane of the slits of a Young's double-slit experiment. Light incident on the slit S_(1) passes through a medium of variable refractive index mu = 1 + ax (where 'x' is the distance from the plane of slits as shown), up to distance 'I' before falling on S_(1) . Rest of the space is filled with air. If at 'O' a minima is formed. then the minimum value of the positive constant a (in terms of l and wavelength lambda in air) is

The order of energy of orbitals is s lt p lt d lt f

In the figure shown S is the saurce of white light kept at a distance x_(0) frorn the plane of the slits. The source moves with a constant specd u towards the slits on the line perpendicular to the plane of the slits and passing through the slit S_(1) . Find the instanteneous velocity (magnituce and direction). of the central maxima at time t having range 0 le t lt lt (x_(0)-d)/(u) . Assume that D gt gt d .

A parallel beam of light of wavelength 600 nm is incident normally on a slit of width d. If the distance between the slits and the screen is 0.8 m and the distance of 2^(nd) order maximum from the centre of the screen is 15 mm. The width of the slit is

A coherent parallel beam of light of wavelength 5000 A is incident normally on the plane of slits. The slit S_(1) is covered with a slab of refractive index mu_(s) = 1.5 and thickness t = 4 xx 10^(-5)m as shown. The separation between the slits is d = 1 mm and the separtion between the plane of slits and screen is D = 1m . Then the position of the central maxima formed on the screen is

In a Young's double slit experiment, D equals the distance of screen and d is the separation between the slits. The distance of the nearest point to the central maximum where the intensity is same as that due to a single slit is equal to

For a parallel beam of monochromatic light of wavelength 'lambda' diffraction is produced by a single slit whose width 'a' is of the order of the wavelength of the light. If 'D' is the distance of the screen from the slit, the width of the central maxima will be

For a parallel beam of monochromatic. Light of wavelength 'lamda' diffraction is produced by a single slit whose width 'a' is of the order of the wavelength of the lightl. If 'D' is the distance of the screen from the slit, the width of the central maxima will be

STATEMENT -1: A white parallel beam of light is incident on a plane glass-vacuum interface as shown. The beam may not undergo dispesion after suffering deviation at the interface (The beam is not incident normally on the interface.) STATEMENT -2: Vacuum has same refractive index for all colours of white light.