All of the big dynosaurs and the vegetation lived under the Sun Jupiter.
Electric Sun Answers Longstanding Puzzles
David Talbott December 11, 2011 thunderblogs
(Discovering the Electric Sun – Part 3)
The Sun’s PNP Transistor
The three plots below, provided by Don Scott, show the energy, electric field strength, and charge density as a function of radial distance from the Sun’s surface. Scott draws our attention to the fact that the three plots provide a stunning match to those of a PNP transistor, while explaining the extreme variability of the solar wind as well:
“In a transistor, the amplitude of the collector current (analogous to the drift of +ions in the solar wind toward the right) is easily controlled by raising and lowering the difference between the base and emitter voltages…If the Sun’s voltage were to decrease slightly – say, because of an excessive flow of outgoing +ions – the voltage rise from point a to b in the energy diagram would increase in height and so reduce the solar wind (both the inward electron flow and the outward +ion flow) in a negative feedback effect….The transistor-like mechanism described above is certainly capable of causing these phenomena. The fusion model is at a complete loss to explain them. Transistor ‘cutoff’ is a process that is used in all digital circuits.”
Fig. 12. Energy, electric field strength, and charge density as a function of radial distance from the Sun's surface. Illustration from Don Scott’s book The Electric Sky.
Electric Sun Answers Longstanding Puzzles
David Talbott December 11, 2011 thunderblogs
(Discovering the Electric Sun – Part 3)
The Sun’s PNP Transistor
The three plots below, provided by Don Scott, show the energy, electric field strength, and charge density as a function of radial distance from the Sun’s surface. Scott draws our attention to the fact that the three plots provide a stunning match to those of a PNP transistor, while explaining the extreme variability of the solar wind as well:
“In a transistor, the amplitude of the collector current (analogous to the drift of +ions in the solar wind toward the right) is easily controlled by raising and lowering the difference between the base and emitter voltages…If the Sun’s voltage were to decrease slightly – say, because of an excessive flow of outgoing +ions – the voltage rise from point a to b in the energy diagram would increase in height and so reduce the solar wind (both the inward electron flow and the outward +ion flow) in a negative feedback effect….The transistor-like mechanism described above is certainly capable of causing these phenomena. The fusion model is at a complete loss to explain them. Transistor ‘cutoff’ is a process that is used in all digital circuits.”