The frings produces in a diffraction pat...

The frings produces in a diffraction patternn are of

equal width with the same intensity

unequal width with varying intensity

equal width with varying intensity

equal widt with varying intensity

Text Solution

Verified by Experts

The correct Answer is:

`R.P.=(D)/(1.22lamda)`
`therefore R.P.=(1m)/(1.22xx5.5xx10^(-7))`
`=(10^(7))/(6.71)=0.149xx10^(7)`

Topper's Solved these Questions

INTERFERENCE AND DIFFRACTION
MARVEL PUBLICATION|Exercise TEST YOUR GRASP|20 Videos
GRAVITATION
MARVEL PUBLICATION|Exercise TEST YOUR GRASP -2|20 Videos
KINETIC THEORY OF GASES ,THERMODYNAMICS AND RADIATION
MARVEL PUBLICATION|Exercise TEST YOUR GRASP - 9|30 Videos

Similar Questions

Explore conceptually related problems

The fringes produce in diffraction pattern are of

In diffraction pattern the fringes are of

An electron beam after hitting a nicket crystal produces a diffraction pattern. What do you conclude ?

In a diffraction pattern, width of a fringe

Visible light of wavelenght 8000 xx 10^(-8) cm falls normally on a single slit and produces a diffraction pattern. It is found that the Third diffraction minimum is at 45^(@) from the central maximum. If the first minimum is produced at theta_(1) then theta_(1) is close to :

Visible light of wavelength 6000 xx 10 ^( - 8 ) cm falls normally on a single slit and produces a diffraction pattern. It is found that the second diffraction minimum is at 60 ^(@) from the central maximum. If the first minimum is produced at theta _ 1 , then theta _ 1 is close to :

Visible light of wavelength 500 nm falls normally on a single slit and produces a diffraction pattern. It is found that the diffraction pattern is on a screen 1 m away from slit. If the first minimum is produced at a distance of 2.5 mm from the centre of screen, then the width of the slit is

MARVEL PUBLICATION-INTERFERENCE AND DIFFRACTION-TEST YOUR GRASP

The frings produces in a diffraction patternn are of
Text Solution
|
Two waves having the intensities in the ratio of 9 : 1 produce interfe...
Text Solution
|
A point P is situated at 40.1 cm and 40.2 cm away from two coherent so...
Text Solution
|
Two coherent monochromatic light beams of intensities I and 4I are sup...
Text Solution
|
In Young's double slit experiment carried out with wavelength lamda=50...
Text Solution
|
In Young's experiment, interference fringes are obtained on a screen p...
Text Solution
|
In a young's double slit experiment, one of the slits is covered by a ...
Text Solution
|
In Young's double slit experiment, the two slits are at a distance 'd'...
Text Solution
|
In Youngs 's double slit experiment, the fringe width obtained by usin...
Text Solution
|
In Young's double slit experiment, the maximum intensity is I(0). What...
Text Solution
|
In a biprism experiment the band width is 0.4 mm when the eye piece is...
Text Solution
|
In a biprism experiment, the distance between the consecutive bright b...
Text Solution
|
Microwave ocillators S(1) and S(2) are used to show interference of el...
Text Solution
|
Two sources of light P and Q have wavelengths 6000 Å and 5500 Å respec...
Text Solution
|
Light of wavelength 5000 Å, illuminates the slit in a biprism experime...
Text Solution
|
A diffraction patter is obtained by making lbue light incident on a na...
Text Solution
|
Light of wavelength lambda is incident on a slit of width d and distan...
Text Solution
|
A light wave is incident normally over a slit of width 24xx10^-5cm. Th...
Text Solution
|
In a Fraunhoffer diffraction at single slit of width 'a' with incident...
Text Solution
|
By using light of wavelength 5200 Å, two points separated by a distanc...
Text Solution
|
What is the resolving power of a telescope whose objective lens has a ...
Text Solution
|