The Universal Sphere-Vortex Principle | Gabriel Kelemen
Gabriel Kelemen, artist and researcher at West University of Timișoara, Romania, has spent over three decades studying the geometry of liquids and stationary waves, developing an interdisciplinary theory that bridges cymatics, fluid dynamics, and biological morphogenesis.
"The visualization of sound is one of the ancestral human dreams. Surprising the image of the aural ephemeral has been interesting scientific environments to this day. Almost everything in the universe is in a vibration state. Clarifying the hierarchy, the origin and co-substantiality of form with the natural language algorithm, grafted on phenomenal synergies, inextricably situates form as a result of stationary wave interference in conjunction with symbolic language-induced inferences."
When acoustic waves pass through liquids, they create stationary wave interference that reveals morphodynamic patterns. Nearly everything in the universe vibrates. This vibration explains why the cosmos expresses order through spheres, which serve as fundamental building blocks carrying disk or spiral adjacencies driven by movement. The sphere-vortex pair working together unifies morphological diversity across all scales. The same organizing principles repeat from galactic stellar matter distributing concentrically through planetary orbits down to atomic orbitals at the quantum level. The Mendeleev Table organizes chemical elements as spherical stationary quantic systems ordered from simple to complex. Spirals mediate between sphere and chaos by providing transitional states. Flow occurs in three progressive stages: laminar or rectilinear, sinuous or meander, and finally vortex. Meander rheology appears as an intermediate stage bridging ordered and chaotic states.
Kelemen conducted three decades of fluid experiments documenting how acoustic stimulation creates standing waves. These waves involve both laminar and turbulent cycloid currents that generate left and right rotating vortexes. Periodic oscillations with antinodes and nodes develop on the vertical axis, generating diverse cyclic currents while asymmetric chaotic turbulences appear simultaneously. In rhythmic harmonious states, standing waves show polygonal symmetry. Triangles, squares, pentagons, and hexagons emerge from antinodes, nodes, centripetal forces, and centrifugal circular movements working together. The experiments explore four major directions: volatile liquids with reduced viscosity like methanol and ethanol, pellicular standing waves at thin membrane levels, static waves in viscose liquids including mineral oil and sodium silicate, and static waves in powder made of spherical granules. When acoustic wave intensity exceeds a critical threshold, chaotic phenomena disrupt the standing wave's symmetry and the liquid atomizes into spherical fragments.
Meander diffusion provides fertile ground for exploring gyrification, the folding pattern seen in brain cortex development. When viscous and volatile phases interact, they create boundary instabilities that accelerate from straight to sinuous lines. This generates anastomosis and invagination until complete dissolution occurs through what Kelemen identified as an "echo of diffusion." The initially viscous fluid forms an envelope of proximity at its edge where partially dissolved material accumulates progressively. Once this phase is consumed, a reverse movement appears from periphery to center, bringing concentrated fluid back in a dissipative, sinuous oscillation. Concentric rings bring together physical phenomena of segregation, standing waves, and osmotic ring diffusion in Liesegang phenomena. Chemical reactions using potassium bichromate and silver nitrate show morphologic coincidence with the Golgi apparatus and endoplasmic reticulum found in cellular cytoplasm. This suggests biochemical reactions in cytoplasm follow principles fundamentally similar to Liesegang osmotic diffusion, where the cell exploits the same self-organizing principles that govern simple chemical systems.
Gabriel Kelemen, artist and researcher at West University of Timișoara, Romania, has spent over three decades studying the geometry of liquids and stationary waves, developing an interdisciplinary theory that bridges cymatics, fluid dynamics, and biological morphogenesis.
"The visualization of sound is one of the ancestral human dreams. Surprising the image of the aural ephemeral has been interesting scientific environments to this day. Almost everything in the universe is in a vibration state. Clarifying the hierarchy, the origin and co-substantiality of form with the natural language algorithm, grafted on phenomenal synergies, inextricably situates form as a result of stationary wave interference in conjunction with symbolic language-induced inferences."
When acoustic waves pass through liquids, they create stationary wave interference that reveals morphodynamic patterns. Nearly everything in the universe vibrates. This vibration explains why the cosmos expresses order through spheres, which serve as fundamental building blocks carrying disk or spiral adjacencies driven by movement. The sphere-vortex pair working together unifies morphological diversity across all scales. The same organizing principles repeat from galactic stellar matter distributing concentrically through planetary orbits down to atomic orbitals at the quantum level. The Mendeleev Table organizes chemical elements as spherical stationary quantic systems ordered from simple to complex. Spirals mediate between sphere and chaos by providing transitional states. Flow occurs in three progressive stages: laminar or rectilinear, sinuous or meander, and finally vortex. Meander rheology appears as an intermediate stage bridging ordered and chaotic states.
Kelemen conducted three decades of fluid experiments documenting how acoustic stimulation creates standing waves. These waves involve both laminar and turbulent cycloid currents that generate left and right rotating vortexes. Periodic oscillations with antinodes and nodes develop on the vertical axis, generating diverse cyclic currents while asymmetric chaotic turbulences appear simultaneously. In rhythmic harmonious states, standing waves show polygonal symmetry. Triangles, squares, pentagons, and hexagons emerge from antinodes, nodes, centripetal forces, and centrifugal circular movements working together. The experiments explore four major directions: volatile liquids with reduced viscosity like methanol and ethanol, pellicular standing waves at thin membrane levels, static waves in viscose liquids including mineral oil and sodium silicate, and static waves in powder made of spherical granules. When acoustic wave intensity exceeds a critical threshold, chaotic phenomena disrupt the standing wave's symmetry and the liquid atomizes into spherical fragments.
Meander diffusion provides fertile ground for exploring gyrification, the folding pattern seen in brain cortex development. When viscous and volatile phases interact, they create boundary instabilities that accelerate from straight to sinuous lines. This generates anastomosis and invagination until complete dissolution occurs through what Kelemen identified as an "echo of diffusion." The initially viscous fluid forms an envelope of proximity at its edge where partially dissolved material accumulates progressively. Once this phase is consumed, a reverse movement appears from periphery to center, bringing concentrated fluid back in a dissipative, sinuous oscillation. Concentric rings bring together physical phenomena of segregation, standing waves, and osmotic ring diffusion in Liesegang phenomena. Chemical reactions using potassium bichromate and silver nitrate show morphologic coincidence with the Golgi apparatus and endoplasmic reticulum found in cellular cytoplasm. This suggests biochemical reactions in cytoplasm follow principles fundamentally similar to Liesegang osmotic diffusion, where the cell exploits the same self-organizing principles that govern simple chemical systems.
❤4
Living organisms from walnut fruit invagination to gastrula phases show consistent folding patterns. Intestines and human embryos follow similar processes where simple tubes become twisted torsades and rhythmically ordered folds. These biological patterns mirror mechanisms found in fluid rheology at macro-dimensional scales whether plasmatic, stellar, atmospheric, planetary, or hydrospheric. The egg sphere divides, invaginates, folds, grows, and flows symmetrically through successive geometric states. The eight-cell stage cube becomes 16 cells in the morula stage before folding inward to become a blastocyst under the influence of a first-degree spherical vortex. Meander dissolution offers a model of dissipative, self-organized mechanisms that parallel embryonic tissue development. Similarities span kidney formation, lung development, brain development, and cortical gyration. Organs form through envelopes of self-projected diffusion undergoing folding and invaginations controlled genetically, hormonally, and enzymatically. Shape appears as meander diffusion controlled through viscosity of intra and extracellular environments. Genetic factors modulate local viscosity by controlling protein secretion and extracellular matrix composition, thereby directing physical folding processes. Heart morphogenesis begins with two original heart arches merging during embryonic development. The process moves from bilateral symmetrical arrangement to progressive helicoidal folding that triggers first constrictions, expansions, and foetal cardiac pulsations around day 21. The heart rotates negative 15 degrees around its vertical axis at each pulsation to induce swirling currents creating helical blood flow patterns. Blood's compressibility allows it to carry sonic fluid currents similar to standing waves in laboratory experiments.
Gimzewski founded sonocytology in 2001 to study acoustic properties of living cells using atomic force microscopy adapted to detect nanoscale vibrations. His research discovered that microsounds vary depending on cell health state. Alcohol increases wave frequency while dying cells emit low waves. This demonstrates that vibration influences living and non-living matter measurably, creating a continuous spectrum rather than a sharp boundary between states. These observations connect directly to Kelemen's broader theoretical work. Studies on geometry of liquids and stationary waves led to the Universal Sphere-Vortex Principle, establishing the premise for morphological diversity at the thin surface of the terrestrial biosphere. The biosphere undergoes permanent rhythmic structuring and destructuring with the sphere-vortex pair working together as the unifying binder of macro and microcosmic morphological diversity. Stewart notes that similarities exist between organism forms and fluid flow forms, but current fluid dynamics equations remain too simple to model organisms fully. Kelemen's experimental observations bridge this gap by showing how fluid dynamics principles apply to biological development when coupled with genetic control. The experiments reveal organizing principles that operate independently of genetic code yet can be harnessed by biology to create the full complexity of life from cosmic to cellular scales.
Ibrahim Karim, founder of BioGeometry, has popularized Kelemen's work, noting that many of his forms function as high BG3 emitters, suggesting these geometric patterns may carry energetic properties beyond their visual and scientific significance. Can you feel anything?
Gimzewski founded sonocytology in 2001 to study acoustic properties of living cells using atomic force microscopy adapted to detect nanoscale vibrations. His research discovered that microsounds vary depending on cell health state. Alcohol increases wave frequency while dying cells emit low waves. This demonstrates that vibration influences living and non-living matter measurably, creating a continuous spectrum rather than a sharp boundary between states. These observations connect directly to Kelemen's broader theoretical work. Studies on geometry of liquids and stationary waves led to the Universal Sphere-Vortex Principle, establishing the premise for morphological diversity at the thin surface of the terrestrial biosphere. The biosphere undergoes permanent rhythmic structuring and destructuring with the sphere-vortex pair working together as the unifying binder of macro and microcosmic morphological diversity. Stewart notes that similarities exist between organism forms and fluid flow forms, but current fluid dynamics equations remain too simple to model organisms fully. Kelemen's experimental observations bridge this gap by showing how fluid dynamics principles apply to biological development when coupled with genetic control. The experiments reveal organizing principles that operate independently of genetic code yet can be harnessed by biology to create the full complexity of life from cosmic to cellular scales.
Ibrahim Karim, founder of BioGeometry, has popularized Kelemen's work, noting that many of his forms function as high BG3 emitters, suggesting these geometric patterns may carry energetic properties beyond their visual and scientific significance. Can you feel anything?
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Bibliography
- "The Universal Sphere-Vortex Principle: Sound Visualization in Liquids and the Nature of Forms" by Gabriel Kelemen
- "Universality of Sphere-Vortex Principle and the Alphabet of Fluid Geometries" by Gabriel Kelemen
- "The Meander Archetype: Nature and Experiment" by Gabriel Kelemen
- "Concentric Archetype and Liesegang Rings" by Gabriel Kelemen
- "Hermeneutics of Genesis" by Gabriel Kelemen
- "Arhetipul Sfera-Vortex: Influențe asupra" by Gabriel Kelemen
- "International Seminar of Corpus Water and Body Fluids: Gravitational Waves-Hydrosphere-Biosphere, Inductions of Sonic Currents in the Cardiovascular System" by Gabriel Kelemen
"Seventh International Symposium of Corpus: Embryo-Soul in Relation to the Sphere-Vortex Principle" by Gabriel Kelemen
Resources
- Video: https://www.youtube.com/watch?v=kOr10J6-0dI
- Publications:
1. https://www.researchgate.net/profile/Gabriel-Kelemen
2. https://independent.academia.edu/KelemenGabriel
- Science To Sage: http://sciencestage.com/uploads/text/dFlHh2kQlQwz3a33xOdf.pdf
- YouTube Channel: https://www.youtube.com/user/kelemengabi
- TEDTalk: https://www.youtube.com/watch?v=7eyl2ddqdxs
Kelemen's Art Portfolios:
- https://www.artstation.com/kelemengabi
- https://www.artmajeur.com/kelemengabi
- https://www.pinterest.fr/kellybrown5/gabriel-kelemen-sound-meets-substance/
- http://kelemengabi.carbonmade.com/
- http://www.flickr.com/photos/9480002@N03/show/
- http://www.vimeo.com/5573219
- http://kelemengabi.picturepush.com/
- http://www.scivee.tv/node/8435
- http://www.artperspective.eu/imagini/Perspective_3.pdf
- http://www.videocommunity.com/pc/pc/display/7112/laurin/
- "The Universal Sphere-Vortex Principle: Sound Visualization in Liquids and the Nature of Forms" by Gabriel Kelemen
- "Universality of Sphere-Vortex Principle and the Alphabet of Fluid Geometries" by Gabriel Kelemen
- "The Meander Archetype: Nature and Experiment" by Gabriel Kelemen
- "Concentric Archetype and Liesegang Rings" by Gabriel Kelemen
- "Hermeneutics of Genesis" by Gabriel Kelemen
- "Arhetipul Sfera-Vortex: Influențe asupra" by Gabriel Kelemen
- "International Seminar of Corpus Water and Body Fluids: Gravitational Waves-Hydrosphere-Biosphere, Inductions of Sonic Currents in the Cardiovascular System" by Gabriel Kelemen
"Seventh International Symposium of Corpus: Embryo-Soul in Relation to the Sphere-Vortex Principle" by Gabriel Kelemen
Resources
- Video: https://www.youtube.com/watch?v=kOr10J6-0dI
- Publications:
1. https://www.researchgate.net/profile/Gabriel-Kelemen
2. https://independent.academia.edu/KelemenGabriel
- Science To Sage: http://sciencestage.com/uploads/text/dFlHh2kQlQwz3a33xOdf.pdf
- YouTube Channel: https://www.youtube.com/user/kelemengabi
- TEDTalk: https://www.youtube.com/watch?v=7eyl2ddqdxs
Kelemen's Art Portfolios:
- https://www.artstation.com/kelemengabi
- https://www.artmajeur.com/kelemengabi
- https://www.pinterest.fr/kellybrown5/gabriel-kelemen-sound-meets-substance/
- http://kelemengabi.carbonmade.com/
- http://www.flickr.com/photos/9480002@N03/show/
- http://www.vimeo.com/5573219
- http://kelemengabi.picturepush.com/
- http://www.scivee.tv/node/8435
- http://www.artperspective.eu/imagini/Perspective_3.pdf
- http://www.videocommunity.com/pc/pc/display/7112/laurin/
YouTube
Archetypal Geometry of Cosmos
Archetypal Geometry of Cosmos
Universal Sphere Spiral Principle
The visualization of sound is one of the ancestral human dreams. Surprising the image of the aural ephemeral has been interesting scientific environments to this day. Almost everything in the…
Universal Sphere Spiral Principle
The visualization of sound is one of the ancestral human dreams. Surprising the image of the aural ephemeral has been interesting scientific environments to this day. Almost everything in the…
Water Wizadry and Implosion Science | Viktor Schauberger
Viktor Schauberger (1885-1958), an Austrian naturalist, philosopher, and inventor who exemplified the Goethean process of direct phenomenological observation, developed revolutionary theories about water science, vortex dynamics, and implosion technology through decades of studying natural systems and experimentation with spiral inflow mechanics.
Three categories of ionic substances govern natural growth processes through electrochemistry and differing activation potentials of elements. Dynagens possess atomic levitative properties that lift carrier water upward against gravity. Fructigens represent growth promoting ions formed when geospheric and atmospheric elements interact. Qualigens capture quality concentrating energies that modern agriculture systematically destroys. These substances depend entirely on water's energetic state.
Water achieves maturation through hermetic exclusion of air, light, and heat. It sinks into cool strata until pressure from the mass above equals upward geothermal pressure. During ascent, warming causes molecules to bind metals, salts, and carbon into COH2 forms while oxygen separates from hydrogen. Gas pressure builds, forcing water upward as springs that carry nutritive salts in suspension. These deposits concentrate in cool surface layers at 4 degrees Celsius. This temperature represents water's maximum density, where carbonic acid elements maintain the atomic potential states necessary for emulsification and dynagen binding. Immature water pumped directly from underground tables bypasses this entire processing cycle. It leaches minerals from organisms instead of supplying them. Steel pipes create rust deposits that breed pathogenic bacteria while ferro-magnetic forces simultaneously discharge water of its energetic properties.
Nature demonstrates these principles at landscape scale. Forest crown closure dynamics reveal water maturation principles at work. Intact canopy prevents direct solar penetration that would otherwise alter ground temperatures and cause nutrient depot subsidence. Clear felling breaks this protection, forcing excessive water uptake that widens sap vessel profiles. Carbonic acid bubbles that previously filled rising ducts like corks now ascend in bead form without lifting capacity. Trees under these conditions develop that familiar conical Christmas tree form with spreading lower branches. Cylindrical high forest trunks tell a different story with their narrow annual rings and tall branchless structure from optimal vertical nutrient transport. Root tip protoplasms function as specialized organs where bipolar element interactions produce water that binds dynagens, lifting carrier water into root zones through electrochemical gradients.
Viktor Schauberger (1885-1958), an Austrian naturalist, philosopher, and inventor who exemplified the Goethean process of direct phenomenological observation, developed revolutionary theories about water science, vortex dynamics, and implosion technology through decades of studying natural systems and experimentation with spiral inflow mechanics.
Three categories of ionic substances govern natural growth processes through electrochemistry and differing activation potentials of elements. Dynagens possess atomic levitative properties that lift carrier water upward against gravity. Fructigens represent growth promoting ions formed when geospheric and atmospheric elements interact. Qualigens capture quality concentrating energies that modern agriculture systematically destroys. These substances depend entirely on water's energetic state.
Water achieves maturation through hermetic exclusion of air, light, and heat. It sinks into cool strata until pressure from the mass above equals upward geothermal pressure. During ascent, warming causes molecules to bind metals, salts, and carbon into COH2 forms while oxygen separates from hydrogen. Gas pressure builds, forcing water upward as springs that carry nutritive salts in suspension. These deposits concentrate in cool surface layers at 4 degrees Celsius. This temperature represents water's maximum density, where carbonic acid elements maintain the atomic potential states necessary for emulsification and dynagen binding. Immature water pumped directly from underground tables bypasses this entire processing cycle. It leaches minerals from organisms instead of supplying them. Steel pipes create rust deposits that breed pathogenic bacteria while ferro-magnetic forces simultaneously discharge water of its energetic properties.
Nature demonstrates these principles at landscape scale. Forest crown closure dynamics reveal water maturation principles at work. Intact canopy prevents direct solar penetration that would otherwise alter ground temperatures and cause nutrient depot subsidence. Clear felling breaks this protection, forcing excessive water uptake that widens sap vessel profiles. Carbonic acid bubbles that previously filled rising ducts like corks now ascend in bead form without lifting capacity. Trees under these conditions develop that familiar conical Christmas tree form with spreading lower branches. Cylindrical high forest trunks tell a different story with their narrow annual rings and tall branchless structure from optimal vertical nutrient transport. Root tip protoplasms function as specialized organs where bipolar element interactions produce water that binds dynagens, lifting carrier water into root zones through electrochemical gradients.