A narrow monochromatic beam of light of ...

A narrow monochromatic beam of light of intensity 1 is incident on a glass plate as shown in figure Another identical glass plate is kept close to the first one and parallel to it. Each glass plate reflects `25%` of the light incident on it and transmits intensities in the interference pattern formed by two beams obtained after one reflection at each plate.

Text Solution

Verified by Experts

The correct Answer is:

`I` is the intensity of incident beam ab. The interfering waves are be and ef, reflected from surface of I and II plate, respectively.
Reflection coefficient of intensity.
`r = 5% = 0.25`
Transmission coefficient of intensity,
`t = 75% = 0.75`
The intensity of beam bc, `I_(1) = 0.25 I = (1)/(4) I`
The intensity of beam `bd = 0.75I`.
The intensity of beam `de = 0.25 xx 0.75 I`
The intensity of beam ef,
`I_(2) = 0.75 xx 0.25 xx 0.75 I = (9)/(64) I`
Ratio of maximum and minimum intensities,
`(sqrt I_(max))/(sqrt I_(min)) = (sqrt I_(1) + sqrt I_(2))/(sqrt I_(1) - sqrt I_(2)) = 7`

Topper's Solved these Questions

WAVE OPTICS
CENGAGE PHYSICS|Exercise Integer|3 Videos
WAVE OPTICS
CENGAGE PHYSICS|Exercise Archives|4 Videos
WAVE OPTICS
CENGAGE PHYSICS|Exercise Assertion- Reasoning|13 Videos
THERMODYNAMICS
CENGAGE PHYSICS|Exercise QUESTION BANK|34 Videos
WAVES
CENGAGE PHYSICS|Exercise QUESTION BANK|38 Videos

Similar Questions

Explore conceptually related problems

A narrow monochromatic beam of light of intensity I is incident on a galss plate as shown in figure. Another identical glass plate is kept close to the first one & parallel to it. Each glass plate reflects 25% of the light incident on it % transmits the remaining find the ratio of the minimum & the maximum intensities in the interference pattern formed by the two beams obtained after one reflection at each plate.

A narrow monochromatic beam of light of intensity I is incident on a glass plate. Another identical glass plate is kept close to the first one and parallel to it. Each plate reflects 25% of the incident light and transmits the remaining. Calculate the ratio of minimum and maximum intensity in the interference pattern fromed by two beams obtained after reflection from each plate.

A ray light of intensity I is incident on a parallel glass-slab at a point A as shown in figure it undergoes partial reflection and refraction. At each reflection 20% of incident energy is refracted rays AB and A'B' undergo interference find the ratio I_(max)//I_(min)

A ray of light intensity I is incident on a parallel glass-slab at a point A as shown in figure. It undergoes partial reflection and refraction. At each reflection 25% of incident energy is reflected. The rays AB and A^(')B^(') undergo interference. The ratio I_(max)//I_(min) is

Two thin glass plates are placed parallel to each other such that distance between them is very small. Each glass plate reflects 25% of incident energy and transmits remaining 75% Light beam is incident on this system. Consider the interference of two light beams obtained after one reflection from each glass plate. Calculate ratio of the maximum to minimum intensity.

A parallel beam of light of intensity I is incident on a glass plate. 25% of light is reflected in any reflection by upper surface and 50% of light is reflected by any reflection from lower surface. Rest is refracted The ratio of maximum to minimum intensity in interference region of reflected rays is

A ray of light of intensity I is incident on a parallel glass slab at a point A as show. It undergoes partial reflection and refraction. At each reflaction 25% of incident energy is reflected. The rays AB and A'B' undergo interference. The ratio I_(max)//I_(min) is

A ray of unpolarised light is incident on a glass plate of refractive index 1.54 at polarising angle, then angle of refraction is :

A ray of light in incident on a glass plate at an angle of 60^@ . What is the refractive index of glass if the reflected and refracted rays are perpendicular to each other?

CENGAGE PHYSICS-WAVE OPTICS-Linked Comprehension

When light from two sources (say slits S(1) and S(2)) interfere, they ...
Text Solution
|
When light from two sources (say slits S(1) and S(2)) interfere, they ...
Text Solution
|
When light from two sources (say slits S(1) and S(2)) interfere, they ...
Text Solution
|
Thin films, including soap bubbles and oil show patterns of alternativ...
Text Solution
|
Thin films, including soap bubbles and oil show patterns of alternativ...
Text Solution
|
Thin films, including soap bubbles and oil show patterns of alternativ...
Text Solution
|
Thin films, including soap bubbles and oil show patterns of alternativ...
Text Solution
|
Thin films, including soap bubbles and oil show patterns of alternativ...
Text Solution
|
Thin films, including soap bubbles and oil show patterns of alternativ...
Text Solution
|
In YDSE set up (see fig.), the light sources executes SHM between P an...
Text Solution
|
In YDSE set up (see fig.), the light sources executes SHM between P an...
Text Solution
|
In YDSE set up (see fig.), the light sources executes SHM between P an...
Text Solution
|
In the arrangement shown in Fig., slits S(1) and S(4)are having a vari...
Text Solution
|
In the arrangement shown in Fig., slits S(1) and S(4)are having a vari...
Text Solution
|
In the arrangement shown in Fig., slits S(1) and S(4)are having a vari...
Text Solution
|
In Young's double-slit experiment lambda = 500 nm, d = 1 mm, and D = 4...
Text Solution
|
A monochromatic light of lambda = 500 Å is incident on two indentical ...
Text Solution
|
A screen is at distance D = 80 cm form a diaphragm having two narrow s...
Text Solution
|
In a modified Young's double-slit experiment, a monochromatic uniform ...
Text Solution
|
A narrow monochromatic beam of light of intensity 1 is incident on a g...
Text Solution
|