diffraction
- Key People:
- Robert Hooke
- Walter M. Elsasser
- Related Topics:
- diffraction grating
- electron diffraction
- aureole
- Brocken spectre
- acoustical shadow
- On the Web:
- Mustansiriyah University - Diffraction (PDF) (Apr. 11, 2025)
diffraction, the spreading of waves around obstacles. Diffraction takes place with sound; with electromagnetic radiation, such as light, X-rays, and gamma rays; and with very small moving particles such as atoms, neutrons, and electrons, which show wavelike properties. One consequence of diffraction is that sharp shadows are not produced. The phenomenon is the result of interference (i.e., when waves are superimposed, they may reinforce or cancel each other out) and is most pronounced when the wavelength of the radiation is comparable to the linear dimensions of the obstacle. When sound of various wavelengths or frequencies is emitted from a loudspeaker, the loudspeaker itself acts as an obstacle and casts a shadow to its rear so that only the longer bass notes are diffracted there. When a beam of light falls on the edge of an object, it will not continue in a straight line but will be slightly bent by the contact, causing a blur at the edge of the shadow of the object; the amount of bending will be proportional to the wavelength. When a stream of fast particles impinges on the atoms of a crystal, their paths are bent into a regular pattern, which can be recorded by directing the diffracted beam onto a photographic film.
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How do scientists use diffraction to study the structure of atoms and molecules?
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Why do radio waves bend around buildings but light doesn't easily bend around corners?
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How does diffraction affect the sound quality at concerts and in auditoriums?
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What is the double-slit experiment and why is it important in physics?
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How are X-ray diffraction patterns used in medicine and scientific research?