Why Does Maximum Diffraction Occur When Gap Size is Comparable to Wavelength?

In summary, diffraction occurs when light or sound waves pass through a gap and spread out. Maximum diffraction occurs when the gap size is similar to the wavelength due to the Huygens-Fresnel principle. As the gap size increases, the diffraction pattern becomes weaker because the secondary waves have more space to spread out and interfere with each other. This can be compared to throwing a pebble versus a rock into a pond.
  • #1
Fixxxer
1
0
Hi guys,

I'm doing an into to diffraction tomorrow, explaining what diffraction is - so light or sound waves spreading out as they pass through a gap, and when it occurs - so it is a maximum when gap size is comparable to wavelength. However I just want to be prepared to answer why this is the case if the kids ask that? Like why does max diffraction occur when the gap size and wavelength are similar and why dies it decrease as the gap size gets bigger.

Does anyone have a good way to explain this to me (so I can get my head round it please!)

Thanks!

:)
 
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  • #2
Fixxxer said:
Hi guys,

I'm doing an into to diffraction tomorrow, explaining what diffraction is - so light or sound waves spreading out as they pass through a gap, and when it occurs - so it is a maximum when gap size is comparable to wavelength. However I just want to be prepared to answer why this is the case if the kids ask that? Like why does max diffraction occur when the gap size and wavelength are similar and why dies it decrease as the gap size gets bigger.

Does anyone have a good way to explain this to me (so I can get my head round it please!)

Thanks!

:)

What has your reading and research on this so far shown you? What online encyclopedia-type resources (like wikipedia) have you tapped so far?
 
  • #3


Hi there,

Great question! The reason why maximum diffraction occurs when the gap size is comparable to the wavelength is because of something called the Huygens-Fresnel principle. This principle states that when a wave passes through a small opening, it creates secondary waves that spread out in all directions. These secondary waves interfere with each other, causing the diffraction pattern that we see.

When the gap size is similar to the wavelength, the secondary waves are able to interfere with each other more effectively, resulting in a stronger diffraction pattern. However, as the gap size gets bigger, the secondary waves have more space to spread out and interfere with each other, causing the diffraction pattern to become weaker.

Think of it like throwing a pebble into a pond. When the pebble is small, it creates ripples that spread out and interfere with each other, creating a strong pattern. But if you were to throw a big rock, the ripples would spread out too far and the interference would be weaker.

I hope this helps! Let me know if you have any other questions. Good luck with your presentation! :)
 

Related to Why Does Maximum Diffraction Occur When Gap Size is Comparable to Wavelength?

What is diffraction?

Diffraction is the bending of waves around an obstacle or through an opening. It occurs when a wave encounters an obstacle or a slit that is comparable in size to its wavelength.

How does diffraction occur?

Diffraction occurs when a wave passes through an opening or around an obstacle. The wave's energy is dispersed, causing it to spread out and bend around the edges of the opening or obstacle.

What is the difference between diffraction and interference?

Diffraction and interference are both phenomena that occur when waves interact with each other. The main difference is that diffraction involves the bending of waves around an obstacle or through an opening, while interference involves the interaction of two or more waves to create a new wave pattern.

What is the relationship between the size of the opening and the amount of diffraction?

The amount of diffraction is directly proportional to the size of the opening. This means that the larger the opening, the more diffraction will occur.

How is diffraction used in everyday life?

Diffraction is used in many everyday applications, such as in the design of speakers, microphones, and musical instruments. It is also used in the study of crystal structures and in medical imaging techniques like X-rays.

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