The galaxy core and the 4 details as the GUIDERS for knowing how large our milky way may be.
by Henryk Szubinski
aN APPROXIMATE SIZE REFERENCE TO STARS AS COMMON DENOMINATOR OF F TYPE STARS
IN THE SCALE OF O,B,A,F,G,K,M TYPES
Each detail function of the core 4 functions has it's point function defined as the type of force that
keeps the stars in their groupings of 10,100,1000,10 000.
planetary mass points as the amount of matter in each point.
Each of the point shown as the small . points as stars have within them 10 other star points.
So each point will inclrease it's content by another 10 x every time the details displace from 1 to 4.
In fact the tighter the dots get with the space inside them ,the larger they stretch the surface of such points by groupings. The grouping effect = that they start to stretch the space they occupy bevause the galaxy itself is a limited type of dot with it's limit on space. So to compare the two, the dots and their increase within,within,within,within actually defines space ,and the explanation for it being there is because the galaxy made it much like the limitations within the innermost point with the approx=100 000 000 dots.
Each of the point shown as the small . points as stars have within them 10 other star points.
So each point will inclrease it's content by another 10 x every time the details displace from 1 to 4.
In fact the tighter the dots get with the space inside them ,the larger they stretch the surface of such points by groupings. The grouping effect = that they start to stretch the space they occupy bevause the galaxy itself is a limited type of dot with it's limit on space. So to compare the two, the dots and their increase within,within,within,within actually defines space ,and the explanation for it being there is because the galaxy made it much like the limitations within the innermost point with the approx=100 000 000 dots.
In this point reference there are 100 stars in each point.These are star clusters.
the reference of any spaceship approaching a star systm with apprximately 10 stars in a string of stars will have the background force
10 000 000 stars in the background.
the reference of any spaceship approaching a star systm with apprximately 10 stars in a string of stars will have the background force
10 000 000 stars in the background.
in each point here there are 1000 stars.These are the dark clouds in the galaxy.
Basic visual identification of any galactic clouds will define the projection of the
amount of stars and the projected amount of space that these clouds will displace
through as =1000 000 stars in the cloud reference background and the projected
future as = 1 000 000 000 stars.
Basic visual identification of any galactic clouds will define the projection of the
amount of stars and the projected amount of space that these clouds will displace
through as =1000 000 stars in the cloud reference background and the projected
future as = 1 000 000 000 stars.
In each point here there are 10 000 stars within them.
The dial function defines the amount of rotational power in the point content of 100 000 stars and their basic opposite to the galactic clouds such as the Magellan.
Each rotational moment in the galaxy and every star in this zone needs the force of rotation of 100 000 000 000 stars. Without this needed background rotational
force in the begining of a galaxy, it will not rotate each and every one of them.
The dial function defines the amount of rotational power in the point content of 100 000 stars and their basic opposite to the galactic clouds such as the Magellan.
Each rotational moment in the galaxy and every star in this zone needs the force of rotation of 100 000 000 000 stars. Without this needed background rotational
force in the begining of a galaxy, it will not rotate each and every one of them.
This shows how much matter there may be contained in relation to the shadow of the galaxy disc.
This matter of the planetary m and the stars combined into clouds are the 3 basic components of the inner galaxy disc
as what they are made of. And because they are made of this matter x planetary globules x clouds x the angles
as
= mxPlanetaryxClouds
The basics of the universe having dark matter and dark energy as the dics own shadow produced by it's own Energy of the combined
m (P) (Cl) (angle)
The shadow of the disc is not the usaul shadow, it is generated by the type of force field that keeps the disc mooving much like some fuel. This fuel is knwon as dark energy
and because the components of it are related to such large structures as galaxy core discs, they burn it in the shadow much like the stuff that displaces out of its lower surface being the exact break down of the matter of the core disc as the mPCI angle.
The shade of the disc is in a higher temperature than the surrounding space , so the disc and it's warmer shadow will burn at some very small degree of Temperature Celcius 1 while the space around the shadow of the disc has some -1 degree celcius, meaning the disc burns through the colder space. The temperature range outside the disc and it's shadow and the -1 C will stabilise back on its exterior as the sphere around it as being warmer by 2 or 3 degrees C meaning the bubble will displace theough intergalactic space by the burn of the space around it as the equation:
1CT Burn x -1CT cooling y=3 CT +S burning z
So the OUTER WARMER SHADOW of space displaces objects such as the sphere around the galaxy faster than the heat of the disc shadow by which the galaxy mooves through intergalactic space..