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Diffraction - EM Waves, Electromagnetic Theory, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET PDF Download

Diffraction is the slight bending of light as it passes around the edge of an object. The amount of bending depends on the relative size of the wavelength of light to the size of the opening. If the opening is much larger than the light's wavelength, the bending will be almost unnoticeable. However, if the two are closer in size or equal, the amount of bending is considerable, and easily seen with the naked eye.

Diffraction - EM Waves, Electromagnetic Theory, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

In the atmosphere, diffracted light is actually bent around atmospheric particles -- most commonly, the atmospheric particles are tiny water droplets found in clouds. Diffracted light can produce fringes of light, dark or colored bands. An optical effect that results from the diffraction of light is the silver lining sometimes found around the edges of clouds or coronassurrounding the sun or moon. The illustration above shows how light (from either the sun or the moon) is bent around small droplets in the cloud.

Optical effects resulting from diffraction are produced through the interference of light waves. To visualize this, imagine light waves as water waves. If water waves were incident upon a float residing on the water surface, the float would bounce up and down in response to the incident waves, producing waves of its own. As these waves spread outward in all directions from the float, they interact with other water waves. If the crests of two waves combine, an amplified wave is produced (constructive interference). However, if a crest of one wave and a trough of another wave combine, they cancel each other out to produce no vertical displacement (destructive interference).

Diffraction - EM Waves, Electromagnetic Theory, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

This concept also applies to light waves. When sunlight (or moonlight) encounters a cloud droplet, light waves are altered and interact with one another in a similar manner as the water waves described above. If there is constructive interference, (the crests of two light waves combining), the light will appear brighter. If there is destructive interference, (the trough of one light wave meeting the crest of another), the light will either appear darker or disappear entirely.

The document Diffraction - EM Waves, Electromagnetic Theory, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET is a part of the Physics Course Physics for IIT JAM, UGC - NET, CSIR NET.
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FAQs on Diffraction - EM Waves, Electromagnetic Theory, CSIR-NET Physical Sciences - Physics for IIT JAM, UGC - NET, CSIR NET

1. What is diffraction of electromagnetic waves?
Ans. Diffraction is the bending and spreading of electromagnetic waves around obstacles or through small openings. It occurs when waves encounter an obstruction or pass through an aperture that is comparable in size to their wavelength. This phenomenon is a characteristic property of waves and is observed in various areas of physics, such as optics and radio waves.
2. How does diffraction of EM waves occur?
Ans. Diffraction of electromagnetic waves occurs when the waves encounter an obstacle or a narrow opening. As the waves pass through the obstacle or aperture, they spread out in all directions. This spreading out is a result of interference between different parts of the wavefront. The degree of diffraction depends on the size of the obstacle or aperture relative to the wavelength of the waves. Smaller obstacles or apertures result in more significant diffraction.
3. What are the practical applications of diffraction in electromagnetic theory?
Ans. Diffraction of electromagnetic waves has several practical applications. In optics, it is used to explain phenomena like the bending of light around corners, the formation of interference patterns, and the behavior of waves passing through small openings in barriers. Diffraction is also utilized in the design of antennas for radio and microwave communication systems, as well as in the analysis of diffraction patterns in X-ray crystallography to determine the structure of molecules.
4. How does diffraction relate to the CSIR-NET Physical Sciences Physics exam?
Ans. Diffraction is an important topic in the CSIR-NET Physical Sciences Physics exam. It is included in the syllabus to assess candidates' understanding of wave properties and their ability to apply diffraction principles to various scenarios. Questions related to diffraction may require candidates to analyze diffraction patterns, calculate the angles of diffraction, or explain the behavior of waves when encountering obstacles or apertures.
5. Can you provide an example of diffraction in everyday life?
Ans. One example of diffraction in everyday life is the phenomenon of sound bending around obstacles. When you hear someone's voice around a corner or behind a wall, it is due to the diffraction of sound waves. The sound waves spread out and bend around the obstacle, reaching your ears even though they are not in a direct line of sight. This is also why loud noises can be heard from a distance, as the sound waves diffract and reach areas that would otherwise be shielded by buildings or other structures.
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