speaking of hidden tracks, a lot of people that have nirvana's nevermind cd didnt realize that if you leave 'something in the way' running for like 12 minutes, you get a phucked up nirvana song called "endless nameless" that reminds me of a james bond kind of tune and then just goes phucked up.
speaking of hidden tracks, a lot of people that have nirvana's nevermind cd didnt realize that if you leave 'something in the way' running for like 12 minutes, you get a phucked up nirvana song called "endless nameless" that reminds me of a james bond kind of tune and then just goes phucked up.
I think that was the CD that started the whole "hidden track" thing.
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b][color:white] (generally from 20 hertz to 20 kHz)[/color] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]
[color:white]White noise is a sound that contains every frequency within the range of human hearing[/color].[/b] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b] [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b].[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color] .[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color].[color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b] [color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b] [color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b] [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b].
[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color] .[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color]:[/b][color:white](generally from 20 hertz to 20 kHz)[/color]marquee scrollamount=16].[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing[/color] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b] [color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b][color:white] (generally from 20 hertz to 20 kHz)[/color] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]white noise
[color:white]White noise is a sound that contains every frequency within the range of human hearing[/color].[/b] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b] [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b].[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color] .[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color].[color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that
has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b] [color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b] [color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b] [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b].[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color] .[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color]:[/b][color:white](generally from 20 hertz to 20 kHz)[/color]marquee scrollamount=16].[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing[/color] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. [color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b]
speaking of hidden tracks, a lot of people that have nirvana's nevermind cd didnt realize that if you leave 'something in the way' running for like 12 minutes, you get a phucked up nirvana song called "endless nameless" that reminds me of a james bond kind of tune and then just goes phucked up.
I think that was the CD that started the whole "hidden track" thing.
Even more are the "Track 0" tracks (like the one found on the CD version of Jimmy Smith's "Root Down") that have bonuses BEFORE the first track. You just have to rewind them back a few minutes after track one starts. For those of you that have Root Down on CD, give it a try.
yeah i heard of something like that, i think an xfiles soundtrack did something like that with a nick cave track or another track...but if it is the nick cave track i'm thinking about, its dope, its called "fear the path of jesus cause he doesn't return" and has some mighty sad violins...off to dl it now
yeah i heard of something like that, i think an xfiles soundtrack did something like that with a nick cave track or another track...but if it is the nick cave track i'm thinking about, its dope, its called "fear the path of jesus cause he doesn't return" and has some mighty sad violins...off to dl it now
Michael Hamilton writes: For those of you with Technics or Marantz CD players, you may like to try this: At the start of the CD, hit the pause button. Then search back beyond the start of track one. You should find two hidden Nick Cave songs, totalling about nine minutes' worth. The clue on the sleeve reads, "Nick Cave & The Bad Seeds would like you to know that 0 is also a number". This type of egg is more common than one might think, however only CD players that are not built to Philips Red Book standards (i.e. Technics) are able to perform this feat. I believe that there are similar truly hidden tracks on Oasis' Heathen Chemistry CD, David Gray's White Ladder and an old Willie Nelson album, the name of which excapes me - but apparantly he rants on about his treatment at the hands of the I.R.S. All good clean fun!
yeah i heard of something like that, i think an xfiles soundtrack did something like that with a nick cave track or another track...but if it is the nick cave track i'm thinking about, its dope, its called "fear the path of jesus cause he doesn't return" and has some mighty sad violins...off to dl it now
Michael Hamilton writes: For those of you with Technics or Marantz CD players, you may like to try this: At the start of the CD, hit the pause button. Then search back beyond the start of track one. You should find two hidden Nick Cave songs, totalling about nine minutes' worth. The clue on the sleeve reads, "Nick Cave & The Bad Seeds would like you to know that 0 is also a number". This type of egg is more common than one might think, however only CD players that are not built to Philips Red Book standards (i.e. Technics) are able to perform this feat. I believe that there are similar truly hidden tracks on Oasis' Heathen Chemistry CD, David Gray's White Ladder and an old Willie Nelson album, the name of which excapes me - but apparantly he rants on about his treatment at the hands of the I.R.S. All good clean fun!
Maxwell's 2nd CD ("Embrya") has a Track 0 as well.
Comments
speaking of hidden tracks, a lot of people that have nirvana's nevermind cd didnt realize that if you leave 'something in the way' running for like 12 minutes, you get a phucked up nirvana song called "endless nameless" that reminds me of a james bond kind of tune and then just goes phucked up.
I think that was the CD that started the whole "hidden track" thing.
which puts record is this and what does it do? any info would be appreciated....
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b][color:white] (generally from 20 hertz to 20 kHz)[/color] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]
[color:white]White noise is a sound that contains every frequency within the range of human hearing[/color].[/b] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b]
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b].[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color]
.[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color].[color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color].
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b]
[color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b] [color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b]
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b]. [/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color]
.[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color]:[/b][color:white](generally from 20 hertz to 20 kHz)[/color]marquee scrollamount=16].[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing[/color] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color].
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b]
[color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b][color:white] (generally from 20 hertz to 20 kHz)[/color] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]white noise
[color:white]White noise is a sound that contains every frequency within the range of human hearing[/color].[/b] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b]
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b].[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color]
.[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color].[color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies.[/color].[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color].
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b]
[color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color] .[/b] [color:white](generally from 20 hertz to 20 kHz)[/color]:[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. .[/b][color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. .[/b][color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs[/color].[/b][color:white] because each successive octave has twice as many frequencies as the one preceding it[/color]. .[/b][color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color]. .[/b].[/b]
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with[/color].[/b][color:white] some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. .[/b][color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. .[/b][color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color]..[/b].[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. .[/b][color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. [color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color]
.[/b][color:white]white noise[/color].
[color:white]White noise is a sound that contains every frequency within the range of human hearing [/color]:[/b][color:white](generally from 20 hertz to 20 kHz)[/color]marquee scrollamount=16].[/b] [color:white]in equal amounts. Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]..[/b] [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]..[/b] [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]..[/b].[/b] [color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies..[/b]white noise
White noise is a sound that contains every frequency within the range of human hearing[/color] [color:white](generally from 20 hertz to 20 kHz) in equal amounts[/color]. [color:white]Most people perceive this sound as having more high-frequency content than low, but this is not the case[/color]. [color:white]This perception occurs because each successive octave has twice as many frequencies as the one preceding it[/color]. [color:white]For example, from 100 Hz to 200 Hz, there are one hundred discrete frequencies[/color]. .[/b][color:white]In the next octave (from 200 Hz to 400 Hz), there are two hundred frequencies[/color].
[color:white]White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles[/color]. [color:white]Pink noise is a variant of white noise[/color]..[/b][color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]. [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave[/color]. [color:white] White noise can be generated on a sound synthesizer. Sound designers can use this sound, with some processing and filtering, to create a multitude of effects such as wind, surf, space whooshes, and rumbles. Pink noise is a variant of white noise[/color].[color:white] Pink noise is white noise that has been filtered to reduce the volume at each octave[/color]..[/b] [color:white]This is done to compensate for the increase in the number of frequencies per octave[/color]. .[/b][color:white]Each octave is reduced by 6 decibels, resulting in a noise sound wave that has equal energy at every octave. [/color].[/b]
Even more are the "Track 0" tracks (like the one found on the CD version of Jimmy Smith's "Root Down") that have bonuses BEFORE the first track. You just have to rewind them back a few minutes after track one starts. For those of you that have Root Down on CD, give it a try.
Michael Hamilton writes:
For those of you with Technics or Marantz CD players, you may like to try this: At the start of the CD, hit the pause button. Then search back beyond the start of track one. You should find two hidden Nick Cave songs, totalling about nine minutes' worth. The clue on the sleeve reads, "Nick Cave & The Bad Seeds would like you to know that 0 is also a number". This type of egg is more common than one might think, however only CD players that are not built to Philips Red Book standards (i.e. Technics) are able to perform this feat. I believe that there are similar truly hidden tracks on Oasis' Heathen Chemistry CD, David Gray's White Ladder and an old Willie Nelson album, the name of which excapes me - but apparantly he rants on about his treatment at the hands of the I.R.S. All good clean fun!
Maxwell's 2nd CD ("Embrya") has a Track 0 as well.
SG
Whut?
Got it?
Dan