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If they are not, the interference patterns become much more complicated, and vary over time.

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What is the difference between a monochromatic light and coherent light waves?

The term "mono" refers to a singular object or subject. The term "chrome" refers to colors. The term "monochrome" is a reference to a single color. ie., if two lights are monochromatic that means they have same wavelength. If two waves are monochromatic (having the same wavelength) and are of the same phase, these two waves are defined as coherent waves. Sources generating such waves are known as coherent sources.


How do you produce two coherent sources of light?

To produce two coherent sources of light, you can use a laser to create a beam of light with a single frequency and direction. By splitting the laser beam into two using a beamsplitter, you can then generate two coherent sources of light that have the same frequency and phase relationship.


What are coherent sources Give example.?

Coherent sources are sources of waves that have a constant phase difference between them. An example of coherent sources is two identical lasers emitting light waves with the same frequency and wavelength.


What are the conditions two light sources to be coherent?

Two light sources are considered coherent if they have a constant phase difference between them and the same frequency. This allows for constructive interference to occur and produce a stable interference pattern. Additionally, the light sources should have similar polarization and be from the same spectral line.


Why are two different sources are not coherent?

Two sources may not be coherent because they present conflicting information, have different perspectives or biases, or rely on inaccurate or outdated data. Differences in research methodologies, sources of data, or interpretations may also contribute to lack of coherence between sources.

Related Questions

What is the difference between a monochromatic light and coherent light waves?

The term "mono" refers to a singular object or subject. The term "chrome" refers to colors. The term "monochrome" is a reference to a single color. ie., if two lights are monochromatic that means they have same wavelength. If two waves are monochromatic (having the same wavelength) and are of the same phase, these two waves are defined as coherent waves. Sources generating such waves are known as coherent sources.


How do you produce two coherent sources of light?

To produce two coherent sources of light, you can use a laser to create a beam of light with a single frequency and direction. By splitting the laser beam into two using a beamsplitter, you can then generate two coherent sources of light that have the same frequency and phase relationship.


What are coherent sources Give example.?

Coherent sources are sources of waves that have a constant phase difference between them. An example of coherent sources is two identical lasers emitting light waves with the same frequency and wavelength.


What are the conditions two light sources to be coherent?

Two light sources are considered coherent if they have a constant phase difference between them and the same frequency. This allows for constructive interference to occur and produce a stable interference pattern. Additionally, the light sources should have similar polarization and be from the same spectral line.


How you get two sources to get interference fringes in air wedge?

To create interference fringes in an air wedge, you need two coherent light sources, typically a monochromatic light source like a laser. The air wedge is formed by placing two glass plates at a slight angle, creating a thin air gap that varies in thickness. The light from the coherent sources reflects off the top and bottom surfaces of the air wedge, leading to constructive and destructive interference, which produces observable fringes. These fringes can be analyzed to determine the wavelength of the light or the wedge's angle.


How are two coherent sources formed by Fresnel's bi-prism?

Two coherent sourses are produced with the bi-prism by the phenomenon of refraction through the refracting surfaces.


Why are two different sources are not coherent?

Two sources may not be coherent because they present conflicting information, have different perspectives or biases, or rely on inaccurate or outdated data. Differences in research methodologies, sources of data, or interpretations may also contribute to lack of coherence between sources.


Why are two independent sources of light used to illuminate the two slits in Young's double slit experiment?

You have to correct the question as,Why are two independent sources of light not used to illuminate the two slits in Young's double slit experiment?We need coherent sources. But two independent sources would emit waves with varying phase difference which makes waves non coherent.


How two coherent sources are realized in fresnel biprism?

In a Fresnel biprism setup, two coherent sources are realized by using a single source that is split into two coherent beams by the biprism. The two beams then interfere with each other to create an interference pattern. This interference pattern contains information about the phase difference between the two beams, allowing for interference effects to be observed.


Why do you use biprism in fresnel biprism experiment?

To make two coherent source for interference .Biprism make two sources.


How many bright fringes will be seen in the interference pattern created by two coherent light sources?

The number of bright fringes in an interference pattern created by two coherent light sources is determined by the formula: ( N fracd cdot lambdaD 1 ), where ( N ) is the number of bright fringes, ( d ) is the distance between the two sources, ( lambda ) is the wavelength of the light, and ( D ) is the distance from the sources to the screen.


Why two independent sources cannot behave as a coherent sources?

Light is emitted due to the de-excitaton of electrons from higher orbits of the various atoms of the light source.The de-excitation can also be to different levels in different atoms resulting in emission of different wavelengths.A light source will have numerous atoms in it.When you take two light sources it is not possible for all the atoms to get de-excited to the same shell at the same time(causing phase difference) that is why two independent sources cannot be coherent.