![]() The previous experiment works best in an open space, because it must be taken into account that sound can be reflected off walls and other objects, allowing all tones to be heard even behind the speaker box. This sound shadow is clear for the high frequencies, which cannot be heard behind the speaker, while the bass and part of the mids can be heard because they turn the unit over. The speaker box is itself an obstacle that produces a shadow sound behind her. Behind the box of a speakerĪ loudspeaker or speaker emits a wide range of wavelengths. It's all due to the phenomenon of diffraction. The key in the phenomenon of diffraction is the size of the obstacle in relation to the wavelength: the diffraction is more intense when the obstacle has dimensions comparable to the wavelength.īass sounds have long wavelengths and therefore can surround the door and be heard behind it. This is because light works completely differently - it is an electromagnetic wave. Unlike light, which is also a wave, sound cannot propagate through a vacuum. Sound is precisely a pressure wave that travels through air and also through water and solids. It is something common to all waves: when the sound wave reaches an opening or an obstacle, the points of its plane become sources and emit other diffracted ones. The sound diffraction is the phenomenon that occurs when sound curves and spreads around an opening or obstacle. Animals that make use of low frequencies.Video: What is Diffraction? - ACOUSTICS Content
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