Transmutations on the Electric Sun

Having demonstrated that transmutations can explain both fossilization and processes going on inside our bodies we can go on to consider our Sun and what sort of transmutations it may be engaging in. But before we do that, we need to understand the mechanisms driving the Sun itself.

The electric Sun

The standard model of the Sun is that it is a ball of gas, fueled by an internal fusion reactor that turns Hydrogen into Helium.

However, this doesn’t fit well with observations. The Sun has a liquid surface. So, it’s not a ball of gas.

Furthermore, the Sun looks more like an externally driven electric furnace than a fusion reactor. There’s certainly a lot of electric activity associated with it.

But if it is a furnace, what powers it? The answer to this question is that it’s the stars themselves that powers the currents that drive them.

Stars are electric furnaces that generate more energy than they consume. Nuclear processes taking place on the surfaces of stars function as electrical accelerators.

Our Sun is a rocky objects

When it comes to the composition of our Sun, we have no reasons to believe that it is made up of anything different from everything else in our solar system. Namely rocks and gases of various kinds.

The abundance of Hydrogen seen in the light spectra of our Sun is not indicative of its makeup. Rather, it’s due to Hydrogen being split off of heavier elements at its surface through nuclear fission.

This process is not unique to our Sun. It takes place on all stars.

This is why we see so much Hydrogen, Helium and other light elements in space, and in the corona of our Sun and other stars. The abundance of light elements in space is not a reflection of the overall makeup of our universe. It’s merely a consequence of the nuclear processes taking place on stars.

Interstellar currents

Note that the energy generated by transmutations of elements on the surface of stars don’t have to account for more than a fraction of their energy outputs. Because stars are first and foremost electric furnaces. The nuclear reactions taking place are merely maintaining and adding to the interstellar engine of electric currents that drive all stars.

Furthermore, the energy lost to space through radiation is largely in the form of charged gases known as plasma, and plasma will always merge and converge onto nearby stars and planets. The energy blasted out into space by our Sun is focused onto other stars and reused.

Little extra energy is required for this to persist. Which means that stars can exist for a very long time without running out of fuel.

Transmutations

As for the transmutations taking place on the surface of stars, we have a few general rules we can apply.

For one, the overall process must be exothermic. Heat is generated, not consumed. Furthermore, the transmutations are mostly due to fission of Hydrogen and Helium. All sorts of other transmutations may also take place, but the abundance of Hydrogen and Helium in the coronas of stars tell us that fission is the main driver.

When we combine these observations with the periodic table, and the fact that planets like Earth are especially rich in Silicon and Iron, we find four candidates for what may be the dominant transmutations that take place on stars. They are:

• Silicon (Si) – Hydrogen (H) = Aluminum (Al) + Energy
• Silicon (Si) – Helium (He) = Magnesium (Mg) + Energy
• Iron (Fe) – Hydrogen (H) = Manganese (Mn) + Energy
• Iron (Fe) – Helium (He) = Chromium (Cr) + Energy

Calculations

Using atomic weights found in the periodic table we can calculate the energy produced by each of these processes as follows.

For Si – H = Al + Energy we get:

• Energy = Si – Al – H
• Energy = 28.085 – 26.982 – 1.008
• Energy = 0.095

For Si – He = Mg + Energy we get:

• Energy = Si – Mg – He
• Energy = 28.085 – 24.305 – 4.003
• Energy = -0.223

For Fe – H = Mn + Energy we get:

• Energy = Fe – Mn – H
• Energy = 55.845 – 54.938 – 1.008
• Energy = -0.101

For Fe – He = Cr + Energy we get:

• Energy = Fe – Cr – He
• Energy = 55.845 – 51.996 – 4.003
• Energy = -0.154

Conclusion

Of the four transmutations listed above, only Silicon to Aluminum produces energy.

However, this is not to say that Silicon to Aluminum transmutation is the only transmutation taking place on our Sun.

Iron may still play an important role. Because iron releases a lot of energy when split into Silicon and Magnesium.

Silicon can in turn split off Hydrogen atoms to produce Aluminum.

The bi-products, Aluminum and Magnesium can also serve as fuel for further subdivisions.

Long chains of reactions are possible. Many of them exothermic, and all ending up with Hydrogen and Helium split off and sent into space.

When more complex transmutation sequences are considered, we get a long list of possibilities. So, we can conclude that the electric model of stars does in deed support the thesis that they are electrical accelerators.