In close proximity like in neutron stars?Sparky wrote: Also, the half life of neutrons and their ability to remain in close proximity to neutrons.
Long enough?
In close proximity like in neutron stars?Sparky wrote: Also, the half life of neutrons and their ability to remain in close proximity to neutrons.
Since you are already introduced with stacked spins:Sparky wrote: Have you looked up the fusion process?
A galaxy of double stars.Sparky wrote:Then ask if I can provide empirical data to lend support for your conclusion? Hello! Earth to Pav....what galaxy are you in?
The two points (voltmeter) is just used to measure the potential drop between them. It's correct that you need two regions of net electric potential difference for a electric current to occur; similar to a cathode and an anode. However, according to the Electric Star model, those two regions aren't assumed or required to come from a double star system.pavlink wrote: To extract energy from electrical field you need second point of contact.
Any star needs a partner.
Measuring electric currents in space is usually derived from the observed magnetic fields they create (hereby dervied from polarization / Faraday rotation). Certain emissions can also be indicative of a discharge. The electric field is assumed to be rather weak and long range for a star, but the domino effect of currents thoughout the stellar sphere is ultimatelly focused on the star. Currents can also be induced in a conductive medium that moves through a varying magnetic field. Not unseen in space either.Of course, the Sun does not have an identifiable cathode in space like the metal cathode in the glow discharge tube. Instead, the plasma in space forms a bubble, known as a “virtual cathode.” Effectively it is the heliopause.
- Wal Thornhill, from Holoscience article: A Mystery Solved - Welcome to the Electric Universe
Heliopause is just part of the electrical circuit.Siggy_G wrote:The two points (voltmeter) is just used to measure the potential drop between them. It's correct that you need two regions of net electric potential difference for a electric current to occur; similar to a cathode and an anode. However, according to the Electric Star model, those two regions aren't assumed or required to come from a double star system.pavlink wrote: To extract energy from electrical field you need second point of contact.
Any star needs a partner.
Of course, the Sun does not have an identifiable cathode in space like the metal cathode in the glow discharge tube. Instead, the plasma in space forms a bubble, known as a “virtual cathode.” Effectively it is the heliopause.
- Wal Thornhill, from Holoscience article: A Mystery Solved - Welcome to the Electric Universe
Indeed, it's a relatively local part of a more complex circuit. Continued from the same quote as mentioned above:pavlink wrote:Heliopause is just part of the electrical circuit.
It is the surface of balance between the stars.
Otherwise, who is constantly replenishing net electrical potential difference?
Where is the source?
It could not be the heliopause itself.
The heliopause is just the observed result.
In plasma terms, the heliopause is not a result of mechanical shock but is a Langmuir plasma sheath that forms between two plasmas of different charge densities and energies. In this case it forms the boundary between the Sun’s plasma and that of the galaxy. Such “bubbles” are seen at all scales, from the comas of comets to the ‘magnetospheres’ of planets and stars. To the plasma engineer they show that the central body is electrically charged relative to its surroundings.
- Wal Thornhill, from Holoscience article: A Mystery Solved - Welcome to the Electric Universe
"bubble" is not quite correct.Siggy_G wrote:Indeed, it's a relatively local part of a more complex circuit. Continued from the same quote as mentioned above:pavlink wrote:Heliopause is just part of the electrical circuit.
It is the surface of balance between the stars.
Otherwise, who is constantly replenishing net electrical potential difference?
Where is the source?
It could not be the heliopause itself.
The heliopause is just the observed result.
In plasma terms, the heliopause is not a result of mechanical shock but is a Langmuir plasma sheath that forms between two plasmas of different charge densities and energies. In this case it forms the boundary between the Sun’s plasma and that of the galaxy. Such “bubbles” are seen at all scales, from the comas of comets to the ‘magnetospheres’ of planets and stars. To the plasma engineer they show that the central body is electrically charged relative to its surroundings.
- Wal Thornhill, from Holoscience article: A Mystery Solved - Welcome to the Electric Universe
pavlink wrote:(...) For example Sun heliopause and Betelgeuse's shoud be aligned.
And that should be true for all our close neighbours.
But we don't have such observations.
There are enough evidence already for another option.
The star powering circuit has another local component.
The indispensable partner neutron star that is closing the circuit locally.
Dear Siggy_G,Siggy_G wrote: It is not impossible that there is a brown dwarf orbiting in the far outskirts of our planetary system; it is in line with the Electric Universe model that gas giants and stars can migrate and be captured between stellar systems. However, there is no requirement for an electric star system to be binary, and certainly not for one of the stars to be a 'neutron star'.
Thanks for the advice. I looked at your image list of apparent binary stars. Is the existence of binary stars a problem for the Electric Star model? Not at all. Is it incorporated? Yes.pavlink wrote: Dear Siggy_G,
You can stay with "virtual cathode" and "unknown current configuration".
Or try to incorporate in the theory the new observations.
http://www.thunderbolts.info/wp/forum/phpB ... 654#p88395
And get closer to physics.
Thats the logical path of evolution for a scientific theory.
Sometimes, for dynamic reasons or to spread the electrical load over a greater surface area, forming stars will electrically fission into binaries or multiple star systems. This scenario may explain some of the surprising abundance of multiple star systems and close orbiting ‘hot Jupiters.’
- Wal Thornhill, from Holoscience: Science’s Looming ‘Tipping Point’
Significantly, the larger the white dwarf, the lower the current density and the lower the apparent temperature. This trend has been noted with some puzzlement by researchers. White dwarfs the size of the Sun and a little larger are stars under lower electrical stress than normal. This may occur, for example, in binary star systems like that of Sirius, where one star usurps most of the available electrical energy.
- Wal Thornhill, from Holoscience: NASA's Dim View of Stars
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