A. diffraction grating has 800 lines per...

A. diffraction grating has 800 lines per mm and is illuminated normally by parallel monochromatic light of wavelengths 560 nm and 590 nm. Calculate the difference in the angular positions of the first order spectra of the two lights on th same suide of the normal.

Topper's Solved these Questions

WAVE OPTICS
SL ARORA|Exercise EXERCISE|2 Videos
WAVE OPTICS
SL ARORA|Exercise Problems from competitive examination|23 Videos
UNIVERSE
SL ARORA|Exercise PROBLEM_TYPE|6 Videos

Similar Questions

Explore conceptually related problems

A diffraction grating having 600 lines per mm is illuminated normally by light of wovelength 600 Å What is the heghest order of diffraction image that can be seen ?

A diffracting grating 1 cm wide has 1200 lines and is used in second order. What is the diffraction angle for light of wavelength 550 nm?

A parallel beam of light of wavelength 6000Å gets diffracted by a single slit of width 0.3 mm. The angular position of the first minima of diffracted light is :

A Slit of width a is illuminated by monochromatic light of wavelength 650nm at normal incidence. Calculate the value of a when the first minimum falls at an angle of diffraction of 30^@

A Slit of width a is illuminated by monochromatic light of wavelength 650nm at normal incidence. Calculate the value of a when the first maximum falls at an angle of diffraction of 30^@

A diffraction grating has 1.26xx10^(4) rulings uniformly spaced over width w=25.4 mm. It is illuminated at normal incidence by blue light of wavelength 450 nm At what angles to the central axis do the second order maxima occur

A narrow slit of width 2 mm is illuminated by monochromatic light fo wavelength 500nm. The distance between the first minima on either side on a screen at a distance of 1 m is

A narrow slit of width 1 mm is illuminated by monochromatic light of wavelength 600 nm. The distance between the first minima on either side of a screen at a distance of 2 m is

SL ARORA-WAVE OPTICS-Based on Intensity Distribution in interference pattern

A. diffraction grating has 800 lines per mm and is illuminated normall...
Text Solution
|
The two slits in Young's experiment have widths in a rations 100 :1 . ...
Text Solution
|
The ratio of intensity at maxima and minima is 25:16 . What will be th...
Text Solution
|
Two coherent sources whose intensity ratio 81:1 produce interference f...
Text Solution
|
Two slits in Young's interference experiment have widths in the ratio ...
Text Solution
|
In a Young's double slit experiment , the intensity of light at a poi...
Text Solution
|
Two coherent monochromatic light beam of intensities I and 4I are supp...
Text Solution
|
the width of the one of the two sites in a Young's double slit experim...
Text Solution
|
Two light waves superposing at the midpoint of the screen are coming f...
Text Solution
|
Monochromatic light of wavelength 600 nm is used in a Young's double s...
Text Solution
|
Find the thickness of a plate which will produce a change in opticle p...
Text Solution
|
In Fresnel's Biprism experiment, on inserting a thin plate of glass in...
Text Solution
|
A transparent paper (mu=1.45) of thickness 0.023 mm is pasted on one o...
Text Solution
|
A glass plate of 1.2xx10^(-6)m thickness is placed in the path of one ...
Text Solution
|
A soap film of 5xx10^(-15)cm thick is viewed at an angle of 35^(@) to ...
Text Solution
|
A thin film of thickness 4xx10^(-5) cm and mu=1.5 is iluminated by whi...
Text Solution
|
In a thin film between two points A and B, eight fringes are observed ...
Text Solution
|
With a thin air film between two points, 6 fringes appear when light o...
Text Solution
|
White light is incident normally on a plane parallel thin film of µ=1....
Text Solution
|
White light is incident on a soap film at an angle of sin^(-1(4)/(5)) ...
Text Solution
|
A soap film of refractive index 4/3 and thickness 1.5xx10^(-4)cm is i...
Text Solution
|