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Stria

Stria (pl.) STRIAE, (LATIN, a furrow, channel, flute.)
"A slight furrow or ridge; a linear marking; a narrow stripe or streak, as of color or texture, esp. one of a number in parallel arrangement." (The New Century Dictionary)
(BIOLOGY) "A minute line, band, groove, or channel." [The New Century Dictionary]

Keely
Law of Vibrating Atomolic Substances
"Atoms are capable of vibrating within themselves at a pitch inversely as the Dyne (the local coefficient of Gravity), and as the atomic volume, directly as the atomic weight, producing the creative force (Electricity), whose transmissive force is propagated through atomolic solids, liquids, and gases, producing induction and the static effect of magnetism upon other atoms of attraction or repulsion, according to the Law of Harmonic Attraction and Repulsion.

Scholium: The phenomenon of Dynamic Electricity through a metallic conductor and of induction are identical. In a metallic conductor, the transmission is from atom to atom, through homologous interstices, filled with ether, presenting small areas in close proximity. In crystalline structures, heat, which expands the atoms, by twisting them produces striae, increases the resistance, etc. Between parallel wires and through air the induction takes place from large areas through a rarefied medium composed of a mixture of substances, whose atoms are separated by waves of repulsion of various pitches, discordant to electric vibrations; the said atoms sympathetically absorb the vibrations and dissipate from themselves, as centers, concentric waves of electric energy which produces heat and gravism." [Keely, 1894]


Russell
"If you should cause an explosion in the very center of a perfectly spherical room you would form spherical layers of increasingly dense pressures with maximum density at the surface of the sphere. The center of the sphere would be maximum in vacuity. The explosion would be symmetrically radial. The reaction to that explosion would also be its reverse. The reflections which would return by radar from the spherical walls of that room would collide at its very center. Compression would then be exerted from the outside and density would increase in the direction of the center. Nature does not work that way, however. Nature causes her explosions to take place as though they were confined within the flat walls of a room of four or many walls of such shapes as we see in crystals. If you caused such an explosion in your six sided room the outward expansion would no longer be even. It would not even be spherical because of the four corners, which would have to be filled. The outward explosion could no longer produce straight radial lines, which would reflect back in straight radial lines. Every radial line would have to curve in the direction of its corners, and as they approached those corners their curvature would twist and increase in speed as they approached the corners. In a sphere all radial lines are equal, but in a cube the diagonals are longer than the diameters. This fact accounts for the curvature, the spin and the shaft. It also accounts for the disappearance of all curvature." [Atomic Suicide, page 289]

See Also


Bernoulli Equation
Birkeland Currents
cube wave-field of zero curvature
Cube
curvature of electric potential pressure
curvature of gravity control
curvature of gravity
curvature
differential densities
Magnetic cube of zero curvature
plane of zero curvature
Propositions Demonstrating the Relative Properties of Straight and Curved Lines
radar corner reflector
Resistance
Sphere
Spiral
stream
Striation
Striations
sympathetic celestial streams
Sympathetic Stream
Sympathetic Streams
Vortex
zero curvature

Created by Dale Pond. Last Modification: Thursday July 8, 2021 03:41:01 MDT by Dale Pond.