Memory Lane

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At the Memory Lane, the discoveries and efforts leading up to the S.H.O. Drive are cataloged.

Comment Record

The scope of the Memory Lane will be contingent on whether S.H.O. Drive works or not as well as depending on how the public responds to it. Sincerely, S.H.O. talk 14:00, 4 November 2016 (PDT)

Early Exposure to Science (In the 1990's)

Quasi-scientific Influences (In the 2000's)

Ideas Inspired from the Syntheses of Other Ideas (2000's to present)

Prior to development of the S.H.O. Drive, I was making electric motors, which I (loosely and erroneously) referred to as "Newman Motors", although none of them could be considered an actual replication of Joseph Westley Newman's Energy Machine[1]. I originally heard about Joseph Westley Newman's Energy Machine back on November 4, 2007[1]. Years ago, I produced many very simple electric motor devices with my limited understanding of the concepts put forth by Joseph Newman[1] in his book, the Energy Machine of Joseph Newman[2][3][4].

Due to the complexity of the commutator design of Newman's Energy Machine, few have able to construct their devices in the way that the inventor, Joseph Westley Newman, describes in his book. Even fewer built a Newman Energy Machine large enough to possess a sufficiently large magnetic vector potential in order to operate as Newman claims. Joseph Newman does not mention the vector potential himself, but one of his endorsers, Robert Joseph Matherne, did so[5]. The magnetic vector potential due to the permanent magnets Newman motors becomes signficant due to an alignment of a great number of bound electron supercurrents in atomic matter. These atomic supercurrents are accurately described by the work of Dr. Randell Lee Mills[6], who does not himself support Newman's theory but nevertheless is as persistent and determined as Joseph Newman in challenging many standard assumptions of 20th Century physics,[7] while being much more competent in many areas[8][9].

Date: March 14, 2016

Description: The Hertzian EM Hypothesis

Filename: 00029.MTS

URL: https://www.youtube.com/watch?v=33_p93xnAko

Actual Newman Energy Machines depended on a very large magnet, and it turns out that the magnetic vector potential [math]\mathbf{A} = \vec A[/math] scales with the size of the magnet even if the peak magnetic flux density [math]\mathbf{B} = \vec B[/math] does not. This year (2016), I proposed a force acting on changing current densities subject to a Magnetic Vector Potential. This extra force is [math]q\nabla_\mathbf{v}(\mathbf{A} \cdot \mathbf{v}) = q\left[ \mathbf{A} \cdot \mathbf{a}/|\mathbf{v}| \right] \mathbf{\hat{v}} = q\left[ A_x \frac{∂v_x}{∂x} + A_y \frac{∂v_y}{∂x} + A_z \frac{∂v_z}{∂x} \right] \mathbf{e}_x = q(\mathbf{A} \cdot \mathbf{a})\mathbf{v} / |\mathbf{v}|^2[/math] and exists due to the acceleration of a charge subject to a magnetic vector potential[10]. The associated power is [math]q\mathbf{A} \cdot \mathbf{a}[/math], which is the rate of change of the velocity-dependent electromagnetic potential over time due to changes of charge velocity. The "overunity" feature of actual Newman Energy Machines arises due to the different value of the external magnetic vector potential during the coil charging phase versus said vector potential during the coil discharging phase.

Consider that a positive value of [math]q\mathbf{A} \cdot \mathbf{v}[/math] corresponds to positive mutual inductance, which implies negative potential energy for a charge moving in a magnetic field with respect to mechanical work and a positive potential energy with respect to electrical power generated by discharging magnetic fields. Conversely, a negative value of [math]q\mathbf{A} \cdot \mathbf{v}[/math] corresponds to negative mutual inductance, which implies positive potential energy for a charge moving in a magnetic field with respect to mechanical work and a negative potential energy with respect to electrical power generated by discharging magnetic fields. Thus, an increasing [math]q\mathbf{A} \cdot \mathbf{v}[/math] represents a net conversion of energy from electrical energy to mechanical energy. [math]q\mathbf{A} \cdot \mathbf{v}[/math] is therefore an energy conversion term, not an energy storage term.

My model can be compared/contrasted to the model proposed by Cyril W. Smith. In his model the new term added to the standard Lorentz force is [math]-q\nabla_\mathbf{A}(\mathbf{A} \cdot \mathbf{v})[/math], whereas in my model the new term added to the standard Lorentz force is [math]q\nabla_\mathbf{v}(\mathbf{A} \cdot \mathbf{v})[/math] whose curl in fact the same, and that is [math]\nabla\times\left(-q\nabla_\mathbf{A}(\mathbf{A} \cdot \mathbf{v})\right) = \nabla\times\left(q\nabla_\mathbf{v}(\mathbf{A} \cdot \mathbf{v})\right)[/math]. So in both cases, an anomalous force occurs. They are not the same though. The additional force predicted by Smith depends on the variation of the vector potential as the charge travels through space at some given velocity. However, the additional force predicted by my model depends on variation of charge velocity subject to a given magnetic vector potential. Smith's force model is invalid for the reason that when added to the Lorentz force, the total force yields no attraction between two parallel currents of arbitrarily large length. My model on the other hand has a different, and probably addressable, issue. That issue is, "What velocity should be a part of the calculation for this new force?" In the case of free electrons in conductive metal, one could argue that it should be the thermal velocity (around 100,000 m/s)[11] rather than the drift velocity (< 1 mm/s)[11], while for electrons trapped in atomic orbitals, which are responsible for magnetism in certain materials, one may argue that the velocity one should choose is much larger (> 2 million m/s)[11], or if the underlying charges are the result of gyroscopic particles like Joseph Westley Newman says, one may argue that the velocity one should choose should have a magnitude of the speed of light, in which case the predicted force anomaly would actually be the reaction force of the action force one would predict from a changing mass of value [math]E/c^2 = \left[ q \varphi - q\mathbf{v} \cdot \mathbf{A} \right]/c^2[/math]. It is the force of the most latter case (which is [math]q(\mathbf{A} \cdot \mathbf{a})\mathbf{v} / |\mathbf{v}|^2 = q(\mathbf{A} \cdot \mathbf{\dot{\mathbf{c}}})\mathbf{c} / c^2[/math] assuming the potentials [math]\varphi[/math] and [math]\mathbf{A}[/math] are unchanging) that I suspect is Lorentz covariant, while the others are not - future studies may tell us soon enough. The predicted average power [math]q\mathbf{A} \cdot \mathbf{a}[/math] remains unaffected by this choice, as long the average acceleration is computed over a sufficiently long time interval. The result is that regardless of the model for the velocity chosen, in the end an increasing [math]q\mathbf{A} \cdot \mathbf{v}[/math] still represents a net conversion of energy from electrical energy to mechanical energy. If [math]q\mathbf{A} \cdot \mathbf{v}[/math] is indeed an energy conversion term, not an energy storage term, then [math]q\mathbf{A} \cdot \mathbf{v}[/math] represents a conversion of bounded energy (i.e. mass) into unbounded energy (i.e. kinetic energy). One may say the same for [math]-q\varphi[/math].

The associated work done by the additional force has been validated by Cyril in one of his experiments where he runs a variant of the Marinov motor as a generator[12]. In his model, the work is done as the charge is displaced from a region where magnetic vector potential has one value to a point where the vector potential has a different value. In my model, the anomalous work is done the charge the very moment when the charge is accelerating. Cyril's model requires path integral of the force, whereas my model requires the time integral of the power. In both cases, the volt meter should give the same reading as in his experiments with his "Marinov Generator", and the anomalous work done per charge should be the same between them.

While this synthesis of ideas remains a work in progress, its current level of development is sufficient to justify an experiment which will either validate or invalidate the concept of a S.H.O. Drive. Sincerely, S.H.O. talk 14:00, 4 November 2016 (PDT)

References

  1. 1.0 1.1 1.2 https://www.youtube.com/playlist?list=PL2506654B08626453
  2. http://www.filefactory.com/file/3nz5dm2ub74l/Newman.pdf
  3. https://archive.org/details/TheEnergyMachineOfJosephNewman8thEdition
  4. https://archive.org/download/TheEnergyMachineOfJosephNewman8thEdition/The%20Energy%20Machine%20of%20Joseph%20Newman%208th%20Edition.pdf
  5. https://web.archive.org/web/20030604043823/http://www.josephnewman.com/A_New_Paradigm.html
  6. http://millsian.com/resources.shtml
  7. http://brilliantlightpower.com/theory-overview/
  8. http://brilliantlightpower.com/management/
  9. https://www.amazon.com/dp/B01LDVWJ0I/ref=dp-kindle-redirect?_encoding=UTF8&btkr=1
  10. http://www.sho.wiki/now/Electromagnetic_Potentials
  11. 11.0 11.1 11.2 http://wiki.c2.com/?SpeedOfElectrons
  12. http://www.overunityresearch.com/index.php?action=dlattach;topic=2470.0;attach=13897

See also

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