Epistemology / Research - By: (Me) Nicholas Ellis @ www.Youtube.com/sn1pe352
"Science is but a perversion of itself unless it has, as its ultimate goal the betterment of humanity" - Nikola Tesla
"If we could produce electric effects of the required quality, this whole planet and the conditions of existence on it could be transformed.
The sun raises the water of the oceans and winds drive it to distant regions where it remains in state of most delicate balance.
If it were in our power to upset it when and wherever desired, this mighty life-sustaining stream could be at will controlled.
We could irrigate arid deserts, create lakes and rivers and provide motive power in unlimited amount.
This would be the most efficient way of harnesing the sun to the uses of man." ( Nikola Tesla, June 1919 )
This Paradigm is in line with James Clerk Maxwell's concept that the universe is existing in a dynamic medium
Light has electric and magnetic components. Until now, scientists thought the effects of the magnetic field were so weak that they could be ignored. What Rand and his colleagues found is that at the right intensity, when light is traveling through a material that does not conduct electricity, the light field can generate magnetic effects that are 100 million times stronger than previously expected.
Under these circumstances, the magnetic effects develop strength equivalent to a strong electric effect.
TURNING a vacuum into a superconductor could be as simple as zapping it with a super-powerful magnet.
That's according to Maxim Chernodub of the University of Tours in France, who believes powerful magnetic fields could pluck charged particles out of the vacuum of space and set them flowing as a current that never encounters any resistance.
This seemingly bizarre proposal is a consequence of the uncertainty principle of quantum theory, which says we can never be sure that a vacuum is truly empty. Instead, space is fizzing with "virtual" particles, which tend to disappear almost as soon as they form. In principle, however, they could stick around long enough to become real, if they could avoid adding energy to the universe's current tally - in accordance with the law of conservation of energy.
That's exactly what happens when charged particles that behave like tiny bar magnets pop out of the vacuum in a strong magnetic field.
The particles rotate so their internal magnetic field aligns with the external one, which decreases the total energy. If the field is strong enough, the virtual particles can become real.
"You can add many particles with no cost of energy," says Chernodub. Such particles all share the same quantum state and form what is known as a condensate, in which they flow together as one and carry current without resistance.
Previous research had focused on relatively heavy particles, called W bosons, that pop out of the vacuum in this way. But Chernodub modelled the scenario with lighter particles called rho mesons, which require less powerful magnetic fields to become real.
According to the uncertainty principle, virtual particles quickly pop in and out of existence throughout the vacuum of space.
The pair calculate that a sufficiently powerful gravitational field, such as that created by a dense object like a neutron star, could create a region near the star where these virtual particles become densely packed.
Their calculations suggest that the overall energy density of this region will grow exponentially until it dwarfs the energy of the object that generated the gravitational field - a "monster of virtual particles that exceeds the strength of its creator."
Casimir energy theory suggested by noted physicist Julian Schwinger and more thoroughly considered in a paper by Claudia Eberlein of the University of Sussex. Eberlein's paper suggests that the light in sonoluminescence is generated by the vacuum within the bubble in a process similar to Hawking radiation, the radiation generated by the edges of black holes. Quantum theory holds that vacuum contains virtual particles, and the rapidly moving interface between water and gas converts virtual photons into real photons. This is related to the Unruh effect or the Casimir effect. If true, sonoluminescence may be the first observable example of quantum vacuum radiation.
"According to the general theory of relativity space is endowed with physical qualities; in this sense, therefore, there exists an aether. According to the general theory of relativity space without aether is unthinkable." - A.Einstein, Sidelights on Relativity, 1922, page 23.
Michael Faraday (1791-1867)
"I cannot conceive curved lines of force without the conditions of a physical existence in that intermediate space."
James Clerk Maxwell (1831-1879)
"...we cannot help thinking that in every place where we find these lines of force, some physical state or action must exist in sufficient energy to produce the actual phenomena."
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Ed Gerjuoy, "Recollections of Oppenheimer and Schwinger"by ITAMPhysics607 views
"In looking at the various environmental issues we are faced with, and the tasks that we need to fulfill for the planet, if we could get more than 10 percent of the people consciously aware, than I believe we could pull the 80 percent in that direction, too."-Dr.Masaru Emoto
sn1pe352 8 months ago