Biology sees no possible reduction to the physics of thinking, that I have to wonder if they might of thought of the correlation here, as distinctive elements have distinctive sounds?
I just finish spending the last 8 days with two of my seven grandchildren. One had passed just a couple of days after being born.
Yes "Happy feet" has become a intricate part of my days visiting as these children are mesmerized by the hearts songs and uniqueness of being borne learning to tap instead of singing. It's trials and tribulations of being different. See:It's a Penquin?
It's an anologistical way of looking at the space of thinking(mind /body) to have it coincide with somethng inherent in our make up. Some thing that is correlative to what strides the thinking mind makes and what resonances in the world are set up for each soul distinctive? Each soul's cause and effect, bringing home to roost the conceptually formed resonances that have been formed " by grokking and digestibility.
For example, in 1704 Sir Isaac Newton struggled to devise mathematical formulas to equate the vibrational frequency of sound waves with a corresponding wavelength of light. He failed to find his hoped-for translation algorithm, but the idea of correspondence took root, and the first practical application of it appears to be the clavecin oculaire, an instrument that played sound and light simultaneously. It was invented in 1725. Charles Darwin’s grandfather, Erasmus, achieved the same effect with a harpsichord and lanterns in 1790, although many others were built in the intervening years, on the same principle, where by a keyboard controlled mechanical shutters from behind which colored lights shne. By 1810 even Goethe was expounding correspondences between color and other senses in his book, Theory of Color. Pg 53, The Man Who Tasted Shapes, by Richard E. Cytowic, M.D.
So to then in my thinking that before each soul crystallizes it's hold on the reality of being in this world, that each soul was in a much different state. A state that the senses held no distinctions other then too, sense "all things" as connected to each other. The differentiations were our attempts to acceptance of living within this world that it should have it;s compartments for sensory outputs distinctive themselves. See:Soul Food
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Cymatics
From Wikipedia, the free encyclopedia
Cymatics (from Greek: κῦμα "wave") is the study of visible sound and vibration, a subset of modal phenomena. Typically the surface of a plate, diaphragm, or membrane is vibrated, and regions of maximum and minimum displacement are made visible in a thin coating of particles, paste, or liquid.[1] Different patterns emerge in the exitatory medium depending on the geometry of the plate and the driving frequency.The apparatus employed can be simple, such as a Chladni Plate[2] or advanced such as the CymaScope, a laboratory instrument that makes visible the inherent geometries within sound and music.[clarification needed]
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Etymology
The generic term for this field of science is the study of modal phenomena, retitled Cymatics by Hans Jenny, a Swiss medical doctor and a pioneer in this field. The word Cymatics derives from the Greek 'kuma' meaning 'billow' or 'wave,' to describe the periodic effects that sound and vibration has on matter.History
The study of the patterns produced by vibrating bodies has a venerable history. One of the earliest to notice that an oscillating body displayed regular patterns was Galileo Galilei. In Dialogue Concerning the Two Chief World Systems (1632), he wrote:On July 8, 1680, Robert Hooke was able to see the nodal patterns associated with the modes of vibration of glass plates. Hooke ran a bow along the edge of a glass plate covered with flour, and saw the nodal patterns emerge.[4][5]As I was scraping a brass plate with a sharp iron chisel in order to remove some spots from it and was running the chisel rather rapidly over it, I once or twice, during many strokes, heard the plate emit a rather strong and clear whistling sound: on looking at the plate more carefully, I noticed a long row of fine streaks parallel and equidistant from one another. Scraping with the chisel over and over again, I noticed that it was only when the plate emitted this hissing noise that any marks were left upon it; when the scraping was not accompanied by this sibilant note there was not the least trace of such marks.[3]
In 1787, Ernst Chladni repeated the work of Robert Hooke and published "Entdeckungen über die Theorie des Klanges" ("Discoveries in the Theory of Sound"). In this book, Chladni describes the patterns seen by placing sand on metal plates which are made to vibrate by stroking the edge of the plate with a bow.
Cymatics was explored by Hans Jenny in his 1967 book, Kymatik (translated Cymatics).[6] Inspired by systems theory and the work of Ernst Chladni, Jenny began an investigation of periodic phenomena but especially the visual display of sound. He used standing waves, piezoelectric amplifiers, and other methods and materials.
Influences in art
Hans Jenny's book influenced Alvin Lucier and, along with Chladni, helped lead to Lucier's composition Queen of the South. Jenny's work was also followed up by Center for Advanced Visual Studies (CAVS) founder Gyorgy Kepes at MIT. [7] His work in this area included an acoustically vibrated piece of sheet metal in which small holes had been drilled in a grid. Small flames of gas burned through these holes and thermodynamic patterns were made visible by this setup.Based on work done in this field, photographer Alexander Lauterwasser captures imagery of water surfaces set into motion by sound sources ranging from pure sine waves, to music by Ludwig van Beethoven, Karlheinz Stockhausen, electroacoustic group Kymatik(who often record in surround sound ambisonics), and overtone singing.
Rosslyn Chapel's carvings are thought to contain references to Cymatics patterns and in 2005 composer Stuart Mitchell and his father T.J.Mitchell created a work realised by the use of matching Cymatics/Chladni patterns to the 13 geometric symbols carved onto the faces of 213 cubes emanating from 14 arches. They have named the completed work The Rosslyn Motet and has received a great deal of media publicity and acclaim from scientific and musicological sources.
See also
- List of wave topics
- Oscillon
- Mode shape
- Music visualization
- Visual music
- Cymatic therapy
- Harmonic analysis
References
- ^ Jenny, Hans (July 2001). Cymatics: A Study of Wave Phenomena & Vibration (3rd ed.). Macromedia Press. ISBN 1-8881-3807-6.
- ^ "Instructional Research Lab: Chladni Plate". University of California, Los Angeles. http://www.physics.ucla.edu/demoweb/demomanual/acoustics/effects_of_sound/chladni_plate.html. Retrieved 3 September 2009.
- ^ Good Vibrations, Joyce McLaughlin, American Scientist, July-August 1998, Volume: 86 Number: 4 Page: 342, DOI: 10.1511/1998.4.342
- ^ Ernst Florens Friedrich Chladni, Institute for Learning Technologies, Columbia University
- ^ Pg 101 Oxford Dictionary of Scientists- Oxford University Press- 1999
- ^ Jenny, Hans (1967). Kymatik. ISBN 1-888138-07-6
- ^ Gyorgy Kepes profile at MIT
External links
- Cymatics and Rosslyn Music 'Cubes'
- Global Cymatics Community
- Cymatics, A Study of Wave Phenomena
- Cymatics Conference
- Cymatica.net : Architectural thesis investigation into the synthesis of space and form generated from sound
- Cymatics.org: Cymatics images & video capturing the interaction of sounds with liquids
- Video of Cymatics of salt grains on vibrating square metal plate
- DIY Cymatics
- TED Talks: Evan Grant: Making sound visible through cymatics
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