In the figure is shown Young's double sl...

In the figure is shown Young's double slit experiment. Q is the position of the first bright fringe on the right side of O. P is the `11^(th)` bright fringe on the other side, as measured from Q. If the wavelength of the light used is `600 nm`. Then `S_(1)B` will be equal to

`6 xx 10^(-6)`m

`6.6 xx 10^(-6)` m

`3.138 xx 10^(-7)`m

`3.144 xx 10^(-7)`m

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

RAY OPTICS AND WAVE OPTICS
VMC MODULES ENGLISH|Exercise IMPECCABLE|58 Videos
RAY OPTICS AND WAVE OPTICS
VMC MODULES ENGLISH|Exercise ENABLE|50 Videos
RAY OPTICS
VMC MODULES ENGLISH|Exercise IN-CHAPTER EXERCISE-J|10 Videos
REVISION TEST-15 JEE - 2020
VMC MODULES ENGLISH|Exercise PHYSICS|25 Videos

Similar Questions

Explore conceptually related problems

As shown in the figure Q, above point O is the position of first bright fringe. On the other side of O, D is the position of 11th bright fringe with respect to Q. If the wavelength of light used is 6000A^(0) then the value of S_(1)B will be

Following figure shows the positions of the first bright fringes B_(1)andB_(2) on either side of the central bright fringe O in Young.s double slit experiment. Find the wavelength of monochromatic light used.

In Young.s double slit experiment, what is the path difference between the two light waves forming 5th bright band (fringe) on the screen ?

In Young.s double slit experiment the phase difference between the waves reaching the central fringe and fourth bright fringe will be

In a Young's double-slit experiment , the slits are separated by 0.28 mm and screen is placed 1.4 m away . The distance between the central bright fringe and the fourth bright fringe is measured to be 1.2 cm . Determine the wavelength of light used in the experiment .

In Young's double slit experiment, slits are arranged in such a way that besides central bright fringes, there is only one bright fringe on either side of it. Slit separation d for the given condition cannot be (if lamda is wavelength of the light used):

Alternative bright and bark fringes appear in Young.s double slit experiment due to the pheno-menon of

Young's double slit experiment is first performed in air and then in a medium other than air. It is found than 8th bright fringe in the medium lies where 5th daek fringe lies in air. The re3fractive index of the medium is nearly

White light is used in a Young's double slit experiment. Find the minimum order of the violet fringe (lamda = 400 nm) which overlaps with a red fringe (lamda = 700 nm) .

VMC MODULES ENGLISH-RAY OPTICS AND WAVE OPTICS -EFFICIENT

When one of the slits of Young's experiment is covered with a transpar...
Text Solution
|
Light of wavelength lambda(0) in air enters a medium of refractive ind...
Text Solution
|
In the figure is shown Young's double slit experiment. Q is the positi...
Text Solution
|
In Young's double slit experiment, the two slits acts as coherent sour...
Text Solution
|
The intensity at the maximum in a Young's double slit experiement is I...
Text Solution
|
In a two slit experiment with monochromatic light, fringes are obtaine...
Text Solution
|
In young's double-slit experiment, the slit are 2 mm apart and are ill...
Text Solution
|
In the ideal double-slit experiment, when a glass-plate (refractive in...
Text Solution
|
A flake of glass (refractive index 1.5) is placed over one of the open...
Text Solution
|
In a double-slit experiment, instead of taking slits of equal width, o...
Text Solution
|
Two ideal slits S(1) and S(2) are at a distance d aprt and illuminated...
Text Solution
|
In a double-slit experiment, fringes are produced using light of wavel...
Text Solution
|
A student is asked to measure the wavelength of monochromatic light. H...
Text Solution
|
In YDSE, having slits of equal width, let beta be the fringe width and...
Text Solution
|
In an experiment to find focal length of a concave mirror, a graph is ...
Text Solution
|
A point source of light S, placed at a distance L in front of the cen...
Text Solution
|
Figure shows two rays A and B beig reflected by a mirror and going as ...
Text Solution
|
An object is initially at a distance of 100 cm from a plane mirr...
Text Solution
|
An object placed in front of a plane mirror is displaced by 0.4 m alon...
Text Solution
|
An object 2.5 cm high is placed at a distance of 10 cm from a concav...
Text Solution
|