A point sources S emitting light of wave...

A point sources `S` emitting light of wavelength `600nm` is placed at a very small height `h` above the flat reflecting surface `AB`(see figure).The intensity of the reflected light is`36%` of the intensity.interference firnges are observed on a screen placed parallel to the reflecting surface a very large distance `D` from it.
(A)What is the shape of the interference fringes on the screen?

(B)Calculate the ratio of the minimum to the maximum to the maximum intensities in the interference fringes fromed near the point `P` (shown in the figure) (c) if the intenstities at point `P` corresponds to a maximum,calculate the minimum distance through which the reflecting surface `AB` should be shifted so that the intensity at `P` again becomes maximum.

300 nm

200 nm

400 nm

None of these

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

NTA JEE MOCK TEST 53
NTA MOCK TESTS|Exercise PHYSICS|25 Videos
NTA JEE MOCK TEST 55
NTA MOCK TESTS|Exercise PHYSICS|25 Videos

Similar Questions

Explore conceptually related problems

Consider the situation of the previous problem, if the mirror reflects only 64% of the light energy falling on it, what will be the ratio of the maximum to the minimum intensity in the interference pattern observed on the screen ?

Light of wavelength 6000 Å falls on a plane reflecting surface. The reflected wavelength is.

Light of wavelength 6000Å falls on a plane reflecting surface. The reflected wavelength is

In Young’s double slit experiment, the intensity of light coming from the first slit is double the intensity from the second slit. The ratio of the maximum intensity to the minimum intensity on the interference fringe pattern observed is

Two coherent sources whose intensity ratio is 25:1 produce interference fringes. Calculate the ratio of amplitudes of light waves coming from them.

NTA MOCK TESTS-NTA JEE MOCK TEST 54-PHYSICS

A cone made of insulating material has a total charge Q spread uniform...
Text Solution
|
Rain, driven by the wind, falls on a railway compartment with a veloci...
Text Solution
|
All surfaces shown in figure are smooth system is released with the sp...
Text Solution
|
Half-life of radioactive sample, when activity of material initially w...
Text Solution
|
A wire bent as a parabola y=kx^(2) is located in a uniform magnetic fi...
Text Solution
|
The radiation emitted when an electron jumps from n = 3 to n = 2 orbi...
Text Solution
|
The U-tube shown has uniform cross-section A liquid is filled in the t...
Text Solution
|
A ray of light is incident on a surface of glass slab at an angle 45^@...
Text Solution
|
A small particle of mass m and its retaining cord is spinning with ang...
Text Solution
|
The carrier frequency generated by a tank circuit containing 1 nF capa...
Text Solution
|
A ideal gas (gamma=1.5) is expanded adiabatically. How many times has ...
Text Solution
|
The quantities A and B are related by the relation A//B = m, where m ...
Text Solution
|
A point sources S emitting light of wavelength 600nm is placed at a ve...
Text Solution
|
A string of mass per unit length mu is clamped at both ends such that ...
Text Solution
|
One end of a light spring of natural length d and spring constant k is...
Text Solution
|
Which state of the triply ionized Beryllium (Be^(3+)) has the same orb...
Text Solution
|
IN a rotor, a hollow vertical cylindrical structure rotates about its ...
Text Solution
|
The distance advanced by the screw of a screw gauge is 2 mm in 4 rotat...
Text Solution
|
The deflection in galvanometer falls to ((1)/(4))^(th) when it is shun...
Text Solution
|
An object of mass 8 kg starts to move from rest under the action of a ...
Text Solution
|