folaht wrote:That piece of diagram should indicate that infrared stars are also possible.
Wasn't Jupiter sending out more radiation than receiving it?
The diagram is fine. Remember that in the Electric Universe the distinction between gas giant planets and brown dwarf stars is imprecise, in that it depends upon the ambient electrical environment, rather than the celestial body itself. In this solar system, the Sun is usurping most of the power supply, that is...the galactic current.
So Jupiter is presently a gas giant planet. The diagram is one that charts stars. The distinction is mostly one of semantics. If Jupiter were traveling alone through interstellar space it would be a very dim brown dwarf star and would have a place in the lower right corner of
the linked chart. To extend the chart to include gas giant planets would be okay, but that would be an effort to expand a "star" chart into a "star and gas giant planet" chart. Of course, you could do that if you wish.
----------------------------------------------------------------------------------------------------------------------------------------------------------------
With regard to neutron stars/pulsars, in the Electric Universe they are something totally different than what is taught by consensus science.
The hypothesized exotic material, neutronium, is a physical impossibility due to the "zone of stability." Neutrons cannot exist outside of an atomic nucleus because they deteriorate into a proton and electron in a matter of seconds. There is no evidence that there can be conditions which allow an exception. Neutron stars exist as a desperate attempt by mainstream to explain observations within the context of the failing gravity only paradigm.
There is a simpler electric explanation: From the link in my post above, Scott wrote:
Some pulsars oscillate with periods in the millisecond range. Their radio pulse characteristics are: the 'duty cycle' is typically 5% (i.e., the pulsar flashes like a strobe light - the duration of each output pulse is much shorter than the length of time between pulses); some individual pulses are quite variable in intensity; the polarization of the pulse implies the origin has a strong magnetic field; magnetic fields require electrical currents. These characteristics are consistent with an electrical arc (lightning) interaction between two closely spaced binary stars. Relaxation oscillators with characteristics like this have been known and used by electrical engineers for many years. Therefore, I was pleased when I saw the following announcement:
Hubble Space Telescope Observations Reveal Coolest and Oldest White Dwarf Stars in the Galaxy: "Using the Hubble Space Telescope, astronomers at the Naval Research Laboratory (NRL) have detected five optical companion stars orbiting millisecond pulsars. Only two other such systems are known. Three of the companions are among the coolest and oldest white dwarf stars known."
[quote="folaht"]That piece of diagram should indicate that infrared stars are also possible.
Wasn't Jupiter sending out more radiation than receiving it?[/quote]The diagram is fine. Remember that in the Electric Universe the distinction between gas giant planets and brown dwarf stars is imprecise, in that it depends upon the ambient electrical environment, rather than the celestial body itself. In this solar system, the Sun is usurping most of the power supply, that is...the galactic current.
So Jupiter is presently a gas giant planet. The diagram is one that charts stars. The distinction is mostly one of semantics. If Jupiter were traveling alone through interstellar space it would be a very dim brown dwarf star and would have a place in the lower right corner of [url=https://www.electric-cosmos.org/hr3.jpg]the linked chart[/url]. To extend the chart to include gas giant planets would be okay, but that would be an effort to expand a "star" chart into a "star and gas giant planet" chart. Of course, you could do that if you wish.
----------------------------------------------------------------------------------------------------------------------------------------------------------------
With regard to neutron stars/pulsars, in the Electric Universe they are something totally different than what is taught by consensus science.
The hypothesized exotic material, neutronium, is a physical impossibility due to the "zone of stability." Neutrons cannot exist outside of an atomic nucleus because they deteriorate into a proton and electron in a matter of seconds. There is no evidence that there can be conditions which allow an exception. Neutron stars exist as a desperate attempt by mainstream to explain observations within the context of the failing gravity only paradigm.
There is a simpler electric explanation: From the link in my post above, Scott wrote:[quote]Some pulsars oscillate with periods in the millisecond range. Their radio pulse characteristics are: the 'duty cycle' is typically 5% (i.e., the pulsar flashes like a strobe light - the duration of each output pulse is much shorter than the length of time between pulses); some individual pulses are quite variable in intensity; the polarization of the pulse implies the origin has a strong magnetic field; magnetic fields require electrical currents. These characteristics are consistent with an electrical arc (lightning) interaction between two closely spaced binary stars. Relaxation oscillators with characteristics like this have been known and used by electrical engineers for many years. Therefore, I was pleased when I saw the following announcement:
Hubble Space Telescope Observations Reveal Coolest and Oldest White Dwarf Stars in the Galaxy: "Using the Hubble Space Telescope, astronomers at the Naval Research Laboratory (NRL) have detected five optical companion stars orbiting millisecond pulsars. Only two other such systems are known. Three of the companions are among the coolest and oldest white dwarf stars known."[/quote]