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Golden Ratio: Difference between revisions
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The [[Golden Ratio]] based spirals and [[Fibonacci]] spirals are used in the propagation of artificial intelligence machinery and are acquired through forming bonded attachments to the original [[Krystal Spiral]]. Their structure creates [[Metatronic Bodies]], [[Reversal 55 Grid|Reversed Merkaba ratios]], and is based on [[Consumptive Modeling]] which has major implications for generating Fallen Consciousness. This leads to the disconnection from higher dimensional connections, creates [[Consciousness Traps]] and cuts off the being from exchange with the Eternal God Source flow. | The [[Golden Ratio]] based spirals and [[Fibonacci]] spirals are used in the propagation of artificial intelligence machinery and are acquired through forming bonded attachments to the original [[Krystal Spiral]]. Their structure creates [[Metatronic Bodies]], [[Reversal 55 Grid|Reversed Merkaba ratios]], and is based on [[Consumptive Modeling]] which has major implications for generating Fallen Consciousness. This leads to the disconnection from higher dimensional connections, creates [[Consciousness Traps]] and cuts off the being from exchange with the Eternal God Source flow. | ||
[[Phi]] is also used as a symbol for the [[Golden Ratio]] and on other occasions in math and science. This use is separately encoded as the Unicode glyph ϕ. The [[Fibonacci]] sequence, provides yet another way to derive [[Phi]] mathematically. The [[Golden Ratio]] 1.618033988749894848204586834..appears in mathematics, art, nature and architecture. The [[Golden Ratio]] also is called the golden mean or golden section | [[Phi]] is also used as a symbol for the [[Golden Ratio]] and on other occasions in math and science. This use is separately encoded as the Unicode glyph ϕ. The [[Fibonacci]] sequence, provides yet another way to derive [[Phi]] mathematically. The [[Golden Ratio]] 1.618033988749894848204586834..appears in mathematics, art, nature and architecture. The [[Golden Ratio]] also is called the golden mean or golden section. <ref>[http://en.wikipedia.org/wiki/Golden_ratio]</ref> | ||
[[Plato]] (427–347 BC), in his Timaeus, describes five possible regular solids (the [[Platonic Solids]]: the tetrahedron, cube, octahedron, dodecahedron, and icosahedron), some of which are related to the [[Golden Ratio]].<ref>[https://en.wikipedia.org/wiki/Golden_ratio Golden Ratio]</ref> | [[Plato]] (427–347 BC), in his Timaeus, describes five possible regular solids (the [[Platonic Solids]]: the tetrahedron, cube, octahedron, dodecahedron, and icosahedron), some of which are related to the [[Golden Ratio]].<ref>[https://en.wikipedia.org/wiki/Golden_ratio Golden Ratio]</ref> | ||