Volume decreases with increased potential.

Volume increases with decreased potential.

Cube Root of the Volume = SqRt of the Area = Length

"Cubing the Sphere"

(Sphere contiguous with and enclosed by a Cube)

Sphere Volume = 2 X 3^{15} X 5153 = 147,879,835,542

Cube Volume = 6561^{3} = 282,429,536,481

Ratio: 282,429,536,481:147,879,835,542::19,683:10,306 = Diminished Octave (Seventh)

Sphere to Cube = Minor Seventh = 5:9::(2 X 3^{15} X 5153):(6561^{3})

Volume increases with decreased potential.

Cube Root of the Volume = SqRt of the Area = Length

"Cubing the Sphere"

(Sphere contiguous with and enclosed by a Cube)

Sphere Volume = 2 X 3

Cube Volume = 6561

Ratio: 282,429,536,481:147,879,835,542::19,683:10,306 = Diminished Octave (Seventh)

Sphere to Cube = Minor Seventh = 5:9::(2 X 3

(NOTE: Compute music ratios for 3 inner cubes and spheres)

See Also

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Last Modification: Sunday 07 of April, 2013 07:27:21 MDT by Dale Pond. (Version 7)

The original document is available at http://pondscienceinstitute.on-rev.com/svpwiki/tiki-index.php?page=Figure+6.19+-+Sphere+to+Cube+-+Relations+and+Proportions