In these pages it will be demonstrated how solar systems develope in a dynamic way.

electrodynamic forces due to gravitational compression have been ignored. From the application of basic science principles enumerated elsewhere, I have developed a new understanding of how solar systems form.

It is my opinion in the very nascent thinking on solar system formation that electrodynamic forces have not been considered. Gravity compresses matter, matter is made of particles and can decompose. when materials are placed under great pressure, an electrical current forms.

This is called the Piezo-electric effect.

I also think that the position and size of a Jovian planet is related to the strength of the electrical field that it's star produces during post ignition events.
In the process of gravity packing things together in tighter and tighter arrangement, filling space more eficiently and increasing density,

the distance from the sun to the center of the Jupiter planet is directly portitional to the electric field emmitted by both objects. The combined field determines the distance of separation of the inertial centers

It has never been considered in this model that the temperature of the material in the individual planetary proto disks will undergo heating and cooling processes

when THE MATERIAL THAT WILL BE A PLANET BEGINS TO FALL INWARD TOWARD A CENTER OF MASS, HEAT WILL BE DEVELOPED. ALL MATERIAL REACT TO HEAT BASED ON TEMP AND PRESSURE. tHE PRESSURE INCREASES AS THE DISK COLAPSES.

since friction occurs as the outer rim overruns the inner concentrate, there is more heat there. matel oxides will carry oxygen down farther and faster than it should as a gas. resulting in oxygen penetrating deeper and then being released by the heating of the same matel oxides.

as for nitrogen, it would be part of an early cooling cycle due to it's very low boiling point. as the planet material grows more dense it would get hotter, driving out the most heat sensative materials first. compounds of various materials that existed in vaccuum and free space breack down in the increasing pressure and heat of a proto planet.



New media published data shows distant galaxies in the proccess of star formation come to a point where the heat and light and other radiative emissions cause the remaining gasses interposed between the forming stars to be blown out of the galaxy causing star formation to slow then halt. Consider this an upscale cousin to the solar wind, this is galactic wind.

It is also an example of DEGENERATIVE FEEDBACK in the formation of stars and galaxies. An event leads to the cessation of itself. Quenching. Stars forming and igniting emmit more and more energy into the space between them. At some point the force of collective stellar emmission is greater than the gravity holding the remaing dust and such inside the galaxy. there must be a similar effect in the depleted accretion disk of a solar systems formation reaches the same critical gravity / radiation pressure null point. The fundamental concept s of symetry and equilibrium are staring at us here.

Click here to see cnn.com

On these pages I will build a model of the forming solar sytem that is capable of supporting life. We will see that it is not a random thing. it is also no accident that our planet has so much iron and other magenetic minerals in it.

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Planetary and stellar exolightning. What is it?







Entropy changes inside large objects

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