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The intensity variation in the two interference pattern obtained with the help of 2 coherent sources is 5% of the average intensity. Find the ratio of intensities of two sources?
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Introduction

When two coherent sources of light interfere, they produce an interference pattern characterized by bright and dark regions. The intensity of the light in these regions can vary, and it is possible to calculate the ratio of intensities of the two sources based on the variation in intensity.

Interference Pattern and Intensity Variation

In an interference pattern, the bright regions are caused by constructive interference, where the crests of the two waves align, resulting in increased intensity. The dark regions, on the other hand, are caused by destructive interference, where the crests of one wave align with the troughs of the other, resulting in decreased intensity.

The intensity variation in the interference pattern is defined as the difference between the maximum and minimum intensities divided by the average intensity:

Intensity Variation = (Imax - Imin) / Iavg

Given that the intensity variation is 5% of the average intensity, we can write:

0.05 = (Imax - Imin) / Iavg

Calculating the Ratio of Intensities

Let's assume the intensities of the two sources are I1 and I2, where I1 is the intensity of the first source and I2 is the intensity of the second source. We need to find the ratio of intensities, which can be expressed as:

Ratio = I1 / I2

To proceed further, we need to make some assumptions. Let's assume that the maximum intensity occurs when the waves from both sources are in phase, resulting in constructive interference. In this case, Imax can be expressed as:

Imax = I1 + I2

Similarly, let's assume that the minimum intensity occurs when the waves from both sources are completely out of phase, resulting in destructive interference. In this case, Imin can be expressed as:

Imin = I1 - I2

Substituting these values into the intensity variation equation, we have:

0.05 = (I1 + I2 - I1 + I2) / (I1 + I2)

Simplifying the equation, we get:

0.05 = 2I2 / (I1 + I2)

Now, we can rearrange the equation to solve for the ratio of intensities:

Ratio = I1 / I2 = (2 / 0.05) - 1

Ratio = 40 - 1 = 39

Conclusion

The ratio of intensities of the two coherent sources is 39. This means that the intensity of the first source is 39 times greater than the intensity of the second source. The intensity variation in the interference pattern can provide valuable information about the relative intensities of the sources involved in the interference phenomenon. Understanding this ratio can help in various applications, such as determining the power distribution between different sources or analyzing the interference patterns in optical systems.
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Read the following text and answer the following questions on the basis of the same:In one of his experiments on interference, August Jean Fresnel used a biprism to induce interference between two beams. He split a diverging beam of light into two parts by using the biprism to refract them. This resulted in two split beams which acted as if they were from two coherent sources and which therefore interfered with each other.A Fresnel Biprism is a thin double prism placed base to base and have very small refracting angle ( 0.5°). This is equivalent to a single prism with one of its angle nearly 179° and other two of 0.5° each.In Young’s double Slits experiment, a single source is split in two coherent sources. For the Young’s slits experiment, we must approximate that the slits act as point sources. This however is not the case, since the slits have finite width. In this way, it gives rise to unwanted diffraction effects that causes errors.The Fresnel biprism experiment overcomes this problem.A Fresnel biprism is a variation of Young’s Slits experiment. When monochromatic light through a narrow slit falls on biprism that divides it into two components. One of these component is refracted from upper portion of biprism and the other one refracted through lower portion. Two virtual coherent sources formed from the original source. In this case, two virtual coherent sources are point sources and replace slits in Young’s experiment.Q. Which problem of Young’s double slit experiment is overcome by Fresnel biprism?

Read the following text and answer the following questions on the basis of the same: In one of his experiments on interference, August Jean Fresnel used a biprism to induce interference between two beams. He split a diverging beam of light into two parts by using the biprism to refract them. This resulted in two split beams which acted as if they were from two coherent sources and which therefore interfered with each other. A Fresnel Biprism is a thin double prism placed base to base and have very small refracting angle ( 0.5°). This is equivalent to a single prism with one of its angle nearly 179° and other two of 0.5° each. In Young’s double Slits experiment, a single source is split in two coherent sources. For the Young’s slits experiment, we must approximate that the slits act as point sources. This however is not the case, since the slits have finite width. In this way, it gives rise to unwanted diffraction effects that causes errors. The Fresnel biprism experiment overcomes this problem. A Fresnel biprism is a variation of Young’s Slits experiment. When monochromatic light through a narrow slit falls on biprism that divides it into two components. One of these component is refracted from upper portion of biprism and the other one refracted through lower portion. Two virtual coherent sources formed from the original source. In this case, two virtual coherent sources are point sources and replace slits in Young’s experiment. Q. What is the difference between the coherent sources produced by Young’s double slit arrangement and Fresnel biprism?

Read the following text and answer the following questions on the basis of the same:In one of his experiments on interference, August Jean Fresnel used a biprism to induce interference between two beams. He split a diverging beam of light into two parts by using the biprism to refract them. This resulted in two split beams which acted as if they were from two coherent sources and which therefore interfered with each other.A Fresnel Biprism is a thin double prism placed base to base and have very small refracting angle ( 0.5°). This is equivalent to a single prism with one of its angle nearly 179° and other two of 0.5° each.In Young’s double Slits experiment, a single source is split in two coherent sources. For the Young’s slits experiment, we must approximate that the slits act as point sources. This however is not the case, since the slits have finite width. In this way, it gives rise to unwanted diffraction effects that causes errors.The Fresnel biprism experiment overcomes this problem.A Fresnel biprism is a variation of Young’s Slits experiment. When monochromatic light through a narrow slit falls on biprism that divides it into two components. One of these component is refracted from upper portion of biprism and the other one refracted through lower portion. Two virtual coherent sources formed from the original source. In this case, two virtual coherent sources are point sources and replace slits in Young’s experiment.Q. Fresnel biprism produces

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The intensity variation in the two interference pattern obtained with the help of 2 coherent sources is 5% of the average intensity. Find the ratio of intensities of two sources?
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The intensity variation in the two interference pattern obtained with the help of 2 coherent sources is 5% of the average intensity. Find the ratio of intensities of two sources? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about The intensity variation in the two interference pattern obtained with the help of 2 coherent sources is 5% of the average intensity. Find the ratio of intensities of two sources? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The intensity variation in the two interference pattern obtained with the help of 2 coherent sources is 5% of the average intensity. Find the ratio of intensities of two sources?.
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