At the time of the original event(big bang) there was a breakdown of original matter. This consisted of a massif release of neutrinos and one hydrogen atom from each atom of original matter.

 

This event may be along a plane as opposed to a single point.

 

The neutrinos are able to go through the hydrogen but unable to go through residual original matter.

 

The neutrinos have mass and energy. All of their energy is transfered to the residual original matter that they hit, pushing it in the direction the neutrino was traveling.

 

The residual original matter will clump together very rapidly as it is bombarded by neutrinos. the larger the clump the bigger the deficit of neutrinos pushing from opposite direction.

 

The hydrogen is affected weakly by the neutrinos. The neutrinos only loose a tiny bit of energy as they travel through hydrogen. The hydrogen will start to be pushed towards the large clumps (dark matter) of residual original matter(black holes)

 

The hydrogen will be compressed to the outside of these clumps of residual original matter to presures high enough to ignite.The hydrogen can not interact in any way with the residual original matter.

 

Neutrinos are produced when the hydrogen breaks down to other elements, this counteracts the neutrino deficit from the clump of residual matter(star)

 

This sequence will eventually produce for instance our solar system.

 

 

 

 

Push Gravity again, using neutrinos as the mysterious push particles.

 

"Original matter"?

 

Neutrinos are produced when the hydrogen breaks down to other elements

 

Hydrogen does not break down into other elements.

Edited March 24, 201312 yr by ACG52

I am trying to find reliable research infomation on Tensor tides. Does anyone have any info on this? Thanks.

I am trying to find reliable research infomation on Tensor tides. Does anyone have any info on this? Thanks.

I can find several article that discuss tidal tensors in general relativity after a few moments using google. Do you have somehthing specific you wish to study? Maybe the following is of interest to you?

 

Tides in Astronomy and Astrophysics, Lecture Notes in Physics, Volume 861 2013.

Editors: Jean Souchay, Stéphane Mathis, Tadashi Tokieda

ISBN: 978-3-642-32960-9 (Print) 978-3-642-32961-6 (Online)