Physics: Difference between revisions - Bose Portable PA Knowledge

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Most are familiar with the properties of one type of sound source – the spherical-wave source – because virtually every loudspeaker is an example of this type. But there are two other types: the cylindrical-wave source, and the plane-wave source. These sources are named for the shapes of the sound waves they produce, and each has significantly different properties:

:* A spherical-wave source is shaped like a typical loudspeaker. Spherical sound waves expand in three dimensions – like an expanding sphere: out, left and right, and up and down.

[[Image:Untitled1.jpg|frame|center|A spherical-wave source, shaped like a typical loudspeaker, sends sound energy in all directions (three dimensions): out, to the sides, and up and down.]]

:* A cylindrical-wave source is shaped like a line. To produce cylindrical waves at musical frequencies the source must be high, about six feet (two meters), or higher. Cylindrical waves expand in two dimensions only – out and to the sides but not up or down (assuming the source is oriented vertically, like a flagpole).

[[Image:Untitled2.jpg|frame|center|A cylindrical-wave source, shaped like a line, or pole, radiates sound in two dimensions: out and to the sides, but not up and down. The resulting radiation pattern is therefore wedge shaped.]]

:* A source capable of producing plane waves is itself planar, or sheet-like, in shape. To produce plane waves at musical frequencies the plane-wave source must be large, about six feet square (two meters square), or larger. Plane waves travel in only one direction, or dimension: out, but not to the sides or up and down.

[[Image:~~Untitled1~~.jpg|frame|center|A ~~spherical~~-wave source, shaped like a ~~typical loudspeaker~~, ~~sends~~ sound ~~energy~~ in ~~all directions (three~~ dimensions): out, to the sides, ~~and~~ up and down.]]

[[Image:Untitled3.jpg|frame|center|A plane-wave source, shaped like a sheet, radiates sound in only one dimensions: out, but not to the sides, or up and down.]]

Figure x. A cylindrical-wave source, shaped like a line, or pole, radiates sound in two dimensions: out and to the sides, but not up and down. The resulting radiation pattern is therefore wedge shaped.

~~Figure x. A plane-wave source, shaped like a sheet, radiates sound in only one dimensions: out, but not to the sides, or up and down.~~

In addition to the different shaped waves produced by the three different source types, waves from spherical, cylindrical, and plane-wave sources also differ in the rate at which sound diminishes with distance from a source.

- Spherical waves retain only one-fourth of their sound intensity with each doubling of distance from the source. For example, if the sound intensity is 100 units at 10 feet from the source, it will be only 25 units at 20 feet, about 6 units at forty feet, and so on. We hear this as a dramatic reduction in sound level with distance from the source. Conversely, if we approach a spherical-wave source that is at a comfortable volume level, it soon reaches a level that is uncomfortably loud. It is this fundamental property that makes spherical-wave sources unsuitable for the challenge of creating sound that can serve both the musician and the audience at the same time without being too loud or soft for either.

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 Most are familiar with the properties of one type of sound source – the spherical-wave source – because virtually every loudspeaker is an example of this type. But there are two other types: the cylindrical-wave source, and the plane-wave source. These sources are named for the shapes of the sound waves they produce, and each has significantly different properties:
 :*	A spherical-wave source is shaped like a typical loudspeaker. Spherical sound waves expand in three dimensions – like an expanding sphere: out, left and right, and up and down.
+[[Image:Untitled1.jpg|frame|center|A spherical-wave source, shaped like a typical loudspeaker, sends sound energy in all directions (three dimensions): out, to the sides, and up and down.]]
 :*	A cylindrical-wave source is shaped like a line. To produce cylindrical waves at musical frequencies the source must be high, about six feet (two meters), or higher. Cylindrical waves expand in two dimensions only – out and to the sides but not up or down (assuming the source is oriented vertically, like a flagpole).
+[[Image:Untitled2.jpg|frame|center|A cylindrical-wave source, shaped like a line, or pole, radiates sound in two dimensions: out and to the sides, but not up and down. The resulting radiation pattern is therefore wedge shaped.]]
 :*	A source capable of producing plane waves is itself planar, or sheet-like, in shape. To produce plane waves at musical frequencies the plane-wave source must be large, about six feet square (two meters square), or larger. Plane waves travel in only one direction, or dimension: out, but not to the sides or up and down.
-[[Image:Untitled1.jpg|frame|center|A spherical-wave source, shaped like a typical loudspeaker, sends sound energy in all directions (three dimensions): out, to the sides, and up and down.]]
+[[Image:Untitled3.jpg|frame|center|A plane-wave source, shaped like a sheet, radiates sound in only one dimensions: out, but not to the sides, or up and down.]]
-Figure x. A cylindrical-wave source, shaped like a line, or pole, radiates sound in two dimensions: out and to the sides, but not up and down. The resulting radiation pattern is therefore wedge shaped.
-Figure x. A plane-wave source, shaped like a sheet, radiates sound in only one dimensions: out, but not to the sides, or up and down.
 In addition to the different shaped waves produced by the three different source types, waves from spherical, cylindrical, and plane-wave sources also differ in the rate at which sound diminishes with distance from a source.
 -	Spherical waves retain only one-fourth of their sound intensity with each doubling of distance from the source. For example, if the sound intensity is 100 units at 10 feet from the source, it will be only 25 units at 20 feet, about 6 units at forty feet, and so on. We hear this as a dramatic reduction in sound level with distance from the source. Conversely, if we approach a spherical-wave source that is at a comfortable volume level, it soon reaches a level that is uncomfortably loud. It is this fundamental property that makes spherical-wave sources unsuitable for the challenge of creating sound that can serve both the musician and the audience at the same time without being too loud or soft for either.