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Topic: Scalar potential

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	PowerPedia:Scalar field theory - PESWiki
		Scalar waves are hypothetical waves, which differ from the conventional electromagnetic transverse waves by one oscillation level parallel to the direction of propagation; they thus have characteristics of longitudinal waves.
		Scalar field theory (SWT) is a set of theories in a abstract model which posits that there is a basic mechanism that produces the electric field and the magnetic field.
		Scalar multiplication may be viewed as an external binary operation or as an action of the field on the vector space.
	www.peswiki.com /index.php/PowerPedia:Scalar_field_theory (4720 words)

	Healing America Scalar Energy
		The term scalar was used by Nikola Tesla at the end of the last century as a part of powerful non-Hertzian energy (without frequencies) which he referred to as standing energy or cosmic waves.
		A survey of the literature suggests that 'scalar' energy is the most appropriate description of healing energy up-to-date, as it allows for the fact that healing energy has been shown to be not part of the electromagnetic spectrum as we understand it.
		According to Robert Jacobs, scalar waves are capable of acting on living organisms at a sub-atomic level, and certain frequencies of scalar have been shown to destroy viruses and bacteria.
	www.ocnsignal.com /scalar (1729 words)

	[No title]
		The curl of the gradient of a scalar potential
		The vertical coordinate, the potential, is analogous to the vertical deflection of a taut membrane.
		Potential surfaces have their greatest value in the mind's eye, which pictures a two-dimensional potential as a contour map and the lines of electric field intensity as the flow lines of water streaming down the hill.
	web.mit.edu /6.013_book/www/chapter4/4.1.html (1680 words)

	The electric scalar potential
		Thus, the scalar potential is just the sum of the potentials generated by each of the charges taken in isolation.
		(176), that the electric field is the gradient of a scalar potential.
		The scalar electric potential is undefined to an additive constant.
	farside.ph.utexas.edu /teaching/em/lectures/node29.html (563 words)

	Electric potential Summary
		Electric potential is a scalar quantity and can result from the introduction of a particle into an electric field produced by a source of potential difference such as a battery, or by another nearby charged particle.
		Electric potential is the potential energy per unit of charge associated with a static (time-invariant) electric field, also called the electrostatic potential, typically measured in volts.
		Mathematically, it is the potential φ (a scalar field) associated with the conservative electric field E (E = −∇φ) that occurs when the magnetic field is time invariant (so that ∇ × E = 0 from Faraday's law of induction).
	www.bookrags.com /Electric_potential (1588 words)

	REGAUGING: Master Overunity Mechanism
		The end result is the formation of a strong magnetostatic scalar potential (pole), of north polarity, on the stator polepiece facing the rotor.
		In short, the rotor perceived the sudden change of magnetostatic scalar potential from the electromagnet in the stator gap as a pseudo-MVP, and the system received a sharp influx of potential energy, without work except for that lost in the electromagnet circuitry.
		Note that again it was accomplished by a change in the magnetostatic scalar potential, which was reset to zero by the de-energizing coil during the back-drag portion of an otherwise conservative cycle.
	www.explorepub.com /articles/beardon/overunity.html (3255 words)

	Scalar Electromagnetics
		After all, a pole is a magnetostatic scalar potential, which is a part of the conglomerate called "G-potential." The pole represents an increase (or decrease, depending on whether it is a north or a south pole) in the magnetostatic component of the local G-potential.
		Accordingly, the magnet is a receiver for scalar waves, which are detected to "bleed-off" as an oscillation of the magnetic field strength of the magnet.
		Scalar waves absorbed into trapped resonance may be regarded as constituting a current of scalar resonance into the mass accumulator object.
	www.zamandayolculuk.com /cetinbal/scalarelectrograv.htm (4701 words)

	barkenhausen effect scalar detector zpe bearden bifilar caduceus
		Scalar detectors can be classified by the translation mode used, the bandwidth of the signal to which the detector will respond, and whether the response of the detector is linear with respect to the applied scalar signal or not.
		As the incident scalar wave modulates the field of the magnet, the modulations of the magnetic field induce an electromagnetic copy of the scalar signal into the resonant circuit by induction.
		In the Barkhausen effect scalar detector, the core material is biased to the critical point in a divergent magnetic field produced by permanent magnets that are shielded from external electromagnetic fields.
	www.amasci.com /freenrg/bark.html (6391 words)

	Scalar and vector potentials (Site not responding. Last check: 2007-11-03)
		The electric field, in static situations (given the usual potential conventions of electrostatics), is just given by the spatial rate of change of the scalar potential, and it points "downhill" toward regions of lower electric potential.
		Now, if the potentials are defined in a certain way (what the pros will recognize as a "covariant gauge"), the potential due to a certain charge and current distribution is related to the charges and currents in an extremely simple way.
		Then the scalar potential at some other place is directly proportional to the charge, and inversely proportional to the distance to the charge.
	world.std.com /~mmcirvin/bluesky/potentials.html (415 words)

	Unification and distance scales
		The radial oscillations are resisted by the curved sides of the scalar potential in the radial direction.
		The physical scalar fields that oscillate as normal modes about the potential minimum are the massless angular mode and the massive radial mode.
		The value of the scalar field at the potential minimum determines the mass of the gauge boson, and hence the range of the force carried by the gauge boson.
	superstringtheory.com /experm/exper3a.html (684 words)

	Potential - Wikipedia, the free encyclopedia
		Leading examples are the gravitational potential and the electric potential, from which the motion of gravitating or electrically charged bodies may be obtained.
		The mathematical study of potentials is known as potential theory; it is the study of harmonic functions on manifolds.
		This mathematical formulation arises from the fact that, in physics, the scalar potential is irrotational, and thus has a vanishing Laplacian -- the very definition of a harmonic function.
	en.wikipedia.org /wiki/Potential (312 words)

	Scalar potential - Wikipedia, the free encyclopedia
		Physically, the scalar potential is similar or identical to potential energy.
		Any conservative force field can be represented as the negative gradient of some scalar potential.
		An example is the (nearly) uniform gravitational field near the Earth's surface.
	en.wikipedia.org /wiki/Scalar_potential (839 words)

	Commentary on Oschman's "Scalar Waves"
		He calls the remaining potentials of scalar and vector type "scalar waves" and "vector waves" respectively.
		In this way the fields (H, E, j, ρ) generated by the potentials (φ,A) by (1)-(5) can be cancelled by the opposite process (–H, –E, –j, –ρ) due to destructive interference, where the opposite process is generated by the couple (–φ', –A').
		B In the bifilar coil the electric and magnetic fields are cancelled, and electric scalar and magnetic vector waves are produced.
	www.mathematik.tu-darmstadt.de /~bruhn/Commentary-Oschman.htm (1813 words)

	Fizzics Fizzle: Advanced: Electricity and Magnetism: Electric Potential
		It is the potential that the particle has to do work, and since it is in an electric field, electric potential seems like the most logical name for it.
		Now instead of dealing directly with potential energy of a charged particle, it might be better to just deal with the more general concept of potential energy per unit charge, which is called simply potential.
		Incidentally for all you lovers of all things scalar, potential is scalar because both potential energy and charge are scalar.
	library.thinkquest.org /16600/advanced/potential.shtml (474 words)

	The scalar potential for the circular current loop
		Tempe, AZ U.S.A. The vector potential and magnetic induction and of the circular current loop, of radius a in the x - y plane carrying a current I, are calculated by Jackson.
		The integral of the negative gradient of the potential is just the difference of the potential at the end points.
		which says that any discontinuity in the potential in the upper hemisphere must be the same for all points on the upper hemisphere.
	fermi.la.asu.edu /PHY531/loop (783 words)

	The Final Secret Of Free Energy
		The dissipation of potential or of its gradient is not potential!
		Since the scalar potential actually consists totally of a set of hidden bidirectional EM waves, then scalar interferometry is possible, and not just an oxymoron as it would seem without considering the inner wave structure of the scalar potential.
		This falsifies one of the assumptions in the common notion of the scalar potential; that its gradient in vacuum is a force field.
	www.bibliotecapleyades.net /bearden/bearden07b.htm (11235 words)

	TOP SECRET SOVIET SCALAR ELECTRO MAGNETIC WEAPONS
		Those scalar waves emitted from resonance are emitted as a pattern ensemble of the resonance, hence they may be regarded as constituting a current of scalar resonance leaving the mass accumulator object.
		Scalar waves absorbed into trapped resonance may be regarded as constituting a current of scalar resonance into the mass accumulator object, thus it is proper to speak of scalar resonance as being able to "flow".
		Interference of the two scalar hemispheres creates a great, glowing hemispherical shell of ordinary electromagnetic energy, in the shell, the energy density is sufficient to lift Dirac matter from the Dirac sea of vacuum, the shell is thus filled with a glowing plasma.
	iron-eagles.tripod.com /articles/emweapons.htm (12276 words)

	Scalar Wave Detector
		First, we regard one oscillation (one wavelength) of the scalar potential wave as a longitudinal photon.
		We represent the longitudinal scalar wave as a horizontal vector, and the usual Hertzian wave as a vertical or "transverse" vector.
		To detect the scalar wave, of course we could bend it so that it has a projected vertical component in the laboratory frame (Figure 5).
	www.cheniere.org /books/starwarsnow/scalardetector.htm (541 words)

	No place like home (Site not responding. Last check: 2007-11-03)
		One potential solution to the field equations is found which depend on the inverse of an interval between two events squared.
		Gupta calculated that ``the probability of the emission of a real longitudinal photon is canceled by the 'negative probability' of the emission of a corresponding scalar photon.'' He notes that this does not alway have to be the case for the nonhomogeneous Maxwell equations, which is the focus of this work.
		A scalar photon would not change signs under a space or time reversal, so its symmetry is different from the electric 3-vector field and the magnetic 3-pseudo-vector field, and thus does not have an obvious role to play in electrodynamics.
	world.std.com /~sweetser/quaternions/gravity/home_paper/home_paper.html (2548 words)

	Untitled Document
		it is possible to focus the potential for the effects of a weapon through spacetime itself, in a manner so that mass and energy do not "travel through space" from the transmitter to the target at all.
		Use of scalar waves in this mode is also called "psychoenergetics" or "psychotronics." At low power the mind-snapper causes everyone in the interference zone to fall unconscious.
		Scalar interferometry may explain many unusual phenomena that are being sighted.
	www.cuttingedge.org /news_updates/na397.cfm (3318 words)

	Utilizing Scalar Electromagnetics To Tap Vacuum Energy
		The ambient potential of the local vacuum surrounding the nucleus is in a violent virtual photon exchange with it, accounting for its electrical charge.
		Discussion of a quantum potential is beyond the scope of this paper, but the technical mechanism for creating one has been previously presented by the author on several occasions.
		The first paper was in fact a detailed theory of the scalar standing potential wave that Nikola Tesla discovered four years earlier, on the night of July 3-4 1899, being radiated from thunderstorms, which he entered in his Colorado Springs Notebook on the morning of the 4th.
	www.zamandayolculuk.com /cetinbal/utilizingscalar.htm (6478 words)

	Scalar EM & Vacuum - Bearden (Site not responding. Last check: 2007-11-03)
		E.T. Whittaker's previously unnoticed 1903-1904 papers which established a hidden bidirectional EM wave structure in a standing forcefield free scalar potential, a method of directly engineering the ambient potential of the vacuum has been developed and realized experimentally.
		Implications of the experimental application of the Sweet vacuum triode, the Bearden approach to the nucleus as a pumped phase conjugate mirror, and the unified field theory based on Whittaker's engineerable hidden variable scalar EM potential theory are also briefly addressed.
		Our purpose is to explain the detailed scalar EM concept of the operation of the vacuum triode, since it is a universal method for cohering and tapping useful EM energy from the vacuum.
	twm.co.nz /Beard_scal_vac.html (1970 words)

	Scalar Waves/Aharonov-Bohm Effect/A-Vector Potential
		Surprisingly the Li'enard-Wiechert potentials do not satisfy the Lorenz gauge condition, therefore they cannot be regarded as solutions of the Maxwell equations in the Lorenz gauge, but only as solutions of the inhomogeneous potential wave equations.
		Therefore, the inhomogeneous potential wave equations should be regarded as a separate set of differential equation that are unconnected with Maxwell's equations.
		In order to simplify this theory of classical electrodynamics we propose a generalization of Maxwell's equations, such that a gauge of the potentials is unnecessary in order to derive the Lorenz inhomogeneous potential wave equations.
	www.unusualresearch.com /scalarbib/scalarbib.htm (895 words)

	Scalar Potential versus Vector Field (Site not responding. Last check: 2007-11-03)
		The scalar description will in some sense be ``more fundamental'' than the vector description, in that one will be able to obtain the vector description from the scalar description by (relatively simple) differentiation.
		This is now a scalar field (function on all the coordinates of space) from which we can easily find the (change in the) potential energy of a given charge
		The most important one is that it requires us to first find the field and then find the potential, which is exactly the opposite of what we want to do.
	www.phy.duke.edu /~rgb/Class/phy42/node11.html (395 words)

	Scalar Electromagnetics and Weather Control - Anomalous Weather Worldwide
		It follows that, by assembling two such scalar potential functions in beams, one can produce a "scalar potential interferometer" where the potential beams intersect at a distance.
		A scalar potential is also just a harmonic assembly of bidirectional longitudinal EM wavepairs, as shown in a paper by E.T. Whittaker the year before, 1903.
		Mass is composed mostly of empty space filled with potentials and fields, with a particle here and there, widely separated.
	www.bibliotecapleyades.net /bearden/bearden13.htm (1767 words)

	Scalar potential - SciForums.com
		No, it's the potential number of scales on any given fish based on it mass and age.
		In 1903, E.T. Whittaker showed that any scalar potential is a harmonic set of bidirectional EM longitudinal wavepairs.
		In 1904 he showed that any EM wave or field is just two scalar potential functions.
	www.sciforums.com /showthread.php?t=6076 (164 words)

	Scalar EM Weather Control (Site not responding. Last check: 2007-11-03)
		E.T. Whittaker in 1904, it is possible to produce EM force fields and force field energy at a distance.
		A "scalar" potential is not a scalar entity at all.
		Whittaker's papers are: (1) "On an expression of the Electromagnetic Field Due to Electrons by Means of Two Scalar Potential Functions," Proc.
	twm.co.nz /Beard_wmod.htm (1730 words)

	Multiplication of Four-vectors (Site not responding. Last check: 2007-11-03)
		which shows that the scalar potential is invariant under transformation.
		are scalar tensor quantities, the quantities in the two center terms of Eq.
		This means the charges should be the rest or proper charges and the distances should be the spacetime intervals, not simply the space intervals in both frames of reference.
	www.softcom.net /users/der555/add9.html (507 words)

	PlanetMath: laminar field
		The condition is equivalent with both of the following:
		which has continuous partial derivatives and which is up to a constant term unique in a simply connected domain; the scalar potential means that
		See Also: curl free field, Poincaré lemma, vector potential
	planetmath.org /encyclopedia/ScalarPotential.html (118 words)

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