![]() ![]() ![]() For instance, the TWEETER of a loudspeaker is shaped in the form of a fan for this purpose. ![]() Īs a result of their capability of diffraction, low frequency sounds are difficult to localize or contain in an environment (see CANYON EFFECT, DIFFUSE SOUND FIELD ).Īn acoustic radiator must be specially designed for good dispersion of high frequencies since this does not occur naturally through diffraction. Ĭompare: CANCELLATION, INTERFERENCE, PARABOLIC REFLECTOR, REFLECTION, REFRACTION. The process of diffraction was first observed by Francesco Maria. When a light wave or a sound wave encounters an object. Both light and sound transfer energy through waves. Diffraction, in general, is the bending of waves around a small aperture. Diffraction is the bending and spreading out of light or sound waves around an object. The system of waves includes sound waves, light waves, electromagnetic waves, water waves, etc. Thus, diffraction may aid sound dispersion and DIFFUSION. Term: Description: Diffraction in photography is when light waves bend around corners and interfere with one another when traveling through small holes, causing. Diffraction is a process by virtue of which a system of waves spreads out after passing through narrow gaps. When the wavelength is similar to the dimensions of the object, as with low frequencies and buildings, or mid-range frequencies and the head, the wave diffracts around the object, using its edges as a focal point from which to generate a new wavefront of the same frequency but reduced intensity. DIFFRACTION The phenomenon in High frequency sounds, with short wavelengths, do not diffract around most obstacles, but are absorbed or reflected instead. Low frequency sounds have wavelengths that are much longer than most objects and barriers, and therefore such waves pass around them undisturbed. Such is the case with high frequencies with respect to the head, and thus is important in BINAURAL HEARING. Diffraction describes the event of waves encountering an obstacle and the consequential bending around the object. High frequency sounds, with short wavelengths, do not diffract around most obstacles, but are absorbed or reflected instead, creating a SOUND SHADOW behind the object. The phenomenon in SOUND PROPAGATION whereby a SOUND WAVE moves around an object whose dimensions are smaller than or about equal to the WAVELENGTH of the sound. ![]()
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