In the begining was a sound. Sound produce rhythm... Rhythm was so cool, so God say - Let the musiiiic be..! So folks, let's groove with dance of the planets /or swing with money markets
Planet Sounds for US Currency
2 April 1792, 12:00, New York, New York
Time Zone 0 hours West, Latitude: 40 N 31 23, Longitude: 74 W 00 23
A planetary orbit is an ellipse, and if the planet is considered to be
like a vibrating string, then the speed of a planet at any given moment
determines the frequency of the planetary sound. These "sounds", however,
are many octaves below the audible range. The listing below is created
by raising the sound frequency by octaves until the frequency is between
440 and 880 cycles per second. The frequency, the number of octaves
difference between the planetary speed and this note, and the corresponding
nearest note are given. A note that is 50% above D, for example, is
half-way between the notes D and D#.
Ura frequency = 452, note is 48% above A , octaves = 22
Mer frequency = 458, note is 72% above A , octaves = 15
Sat frequency = 470, note is 15% above A#, octaves = 19
Sun frequency = 483, note is 63% above A#, octaves = 16
Jup frequency = 495, note is 4% above B , octaves = 19
Nep frequency = 568, note is 44% above C#, octaves = 21
Moo frequency = 612, note is 74% above D , octaves = 12
Plu frequency = 735, note is 90% above F , octaves = 21
Ven frequency = 785, note is 2% above G , octaves = 15
Mar frequency = 794, note is 22% above G , octaves = 17
This report was made with Kepler astrosoftware.
Cheers
Planet Sounds for US Currency
2 April 1792, 12:00, New York, New York
Time Zone 0 hours West, Latitude: 40 N 31 23, Longitude: 74 W 00 23
A planetary orbit is an ellipse, and if the planet is considered to be
like a vibrating string, then the speed of a planet at any given moment
determines the frequency of the planetary sound. These "sounds", however,
are many octaves below the audible range. The listing below is created
by raising the sound frequency by octaves until the frequency is between
440 and 880 cycles per second. The frequency, the number of octaves
difference between the planetary speed and this note, and the corresponding
nearest note are given. A note that is 50% above D, for example, is
half-way between the notes D and D#.
Ura frequency = 452, note is 48% above A , octaves = 22
Mer frequency = 458, note is 72% above A , octaves = 15
Sat frequency = 470, note is 15% above A#, octaves = 19
Sun frequency = 483, note is 63% above A#, octaves = 16
Jup frequency = 495, note is 4% above B , octaves = 19
Nep frequency = 568, note is 44% above C#, octaves = 21
Moo frequency = 612, note is 74% above D , octaves = 12
Plu frequency = 735, note is 90% above F , octaves = 21
Ven frequency = 785, note is 2% above G , octaves = 15
Mar frequency = 794, note is 22% above G , octaves = 17
This report was made with Kepler astrosoftware.
Cheers
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