STARS HAVE ATMOSPHERES
article about
POLARIZATION VAPORS of the UNIVERSE and the
blue polarization difference of orange opposite to polarity as
the lucidity of the color spectra.
SIMILAR article to those that won the NOBEL prize for FRANK WILCZEK 2004
for his color schemes in the theory that "the Earth = work of art "
by Henryk Szubinski
Looking into orange vapours that are the density of our Earth's atmosphere as blue
because the blue spectrum and the orange spectrum are complementary colors.
V1974 Cygni or Nova Cygni 1992 was a relatively bright nova in the constellation Cygnus.
It was discovered on February 19, 1992, by Peter Collins. At that time it was magnitude 6, the maximum magnitude reached was 4.4. The hydrogen burning on the white dwarf ended two years later, in 1994. This nova was a neon nova. It is the first nova observed from onset to completion, and can be calculated to be 10,430 light years away from Earth
On the basis of this being the orange gas as the spectra that exists opposite to the complementary spectra of BLUE, the theory goes something like this.
"That the basic INVERTION of the Orange as the Gas particle and the Blue as the POlarization particle type of lower density than the orange by comparing the two on the spectral values in ångström values being in
density of x and density of y
So that the cx and cy have their density change by about one unit of polarization in the opposite direction ,meaning that INVERTION defines the differencial of the
xc by about c x squared ---------------> cx cubed--------------->the Bule spectrum of the polarization in the opposite direction of the summation of the
n'th value ny (dn) ------------------------>ny (dn squ)-------------------ny (dn cubed) -------------------->fror there to be any extra INVERTION by 4 roots = the previous -3 roots
as beyond the
dny cubed
It was discovered on February 19, 1992, by Peter Collins. At that time it was magnitude 6, the maximum magnitude reached was 4.4. The hydrogen burning on the white dwarf ended two years later, in 1994. This nova was a neon nova. It is the first nova observed from onset to completion, and can be calculated to be 10,430 light years away from Earth
On the basis of this being the orange gas as the spectra that exists opposite to the complementary spectra of BLUE, the theory goes something like this.
"That the basic INVERTION of the Orange as the Gas particle and the Blue as the POlarization particle type of lower density than the orange by comparing the two on the spectral values in ångström values being in
density of x and density of y
So that the cx and cy have their density change by about one unit of polarization in the opposite direction ,meaning that INVERTION defines the differencial of the
xc by about c x squared ---------------> cx cubed--------------->the Bule spectrum of the polarization in the opposite direction of the summation of the
n'th value ny (dn) ------------------------>ny (dn squ)-------------------ny (dn cubed) -------------------->fror there to be any extra INVERTION by 4 roots = the previous -3 roots
as beyond the
dny cubed
F as the number of complementary colors possible by variations of the density of the polarization as the BLUE SPECTRUM x being closer than the y by about ROOT DENSITY
of x exp 5.
or as 5 units closer in the range of star types as the 5th star being our G type yellow star with multiples of 10000 more rooted by exp 5 =1,335214 as density
SO when we root 80 by 5 times we get 1,146
The basis of the
O type = 1,335
B type = 1,146
define the white as polarization of any light
as well as the dark being the opposite of polarization of any light.
So then, the polarization of white has to be previous to the polarization of blue by the amount of spectra being 1,335-1,146= 0,18824
This defines the basic parameter or interval in which any 2 spectra between white and dark may be polarized into each other such as
BLUE to ORANGE or ORANGE to BLUE.
the blue spectra =2nd x
and the orange spectra = 4th x
So then the 2x0,18824 and the 4x0,18824
=0,376 and 0,752
This defines the INTERVAL of the BLUE and ORANGE as the GREEN SPECTRUM of the A type stars.
The density then, being the amount of range from the white or dark in the units remaining after the density has been reversed and the remaining decimal
defines the 10 types of star as from 0,1 to 1,0 as the polarization of non dense vapors in the universe on the scale of another type of density being the
LUCIDITY of 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8 0,9 1,0
Here then , the way to make equations of the polarization of any colors or spectra.
of x exp 5.
or as 5 units closer in the range of star types as the 5th star being our G type yellow star with multiples of 10000 more rooted by exp 5 =1,335214 as density
SO when we root 80 by 5 times we get 1,146
The basis of the
O type = 1,335
B type = 1,146
define the white as polarization of any light
as well as the dark being the opposite of polarization of any light.
So then, the polarization of white has to be previous to the polarization of blue by the amount of spectra being 1,335-1,146= 0,18824
This defines the basic parameter or interval in which any 2 spectra between white and dark may be polarized into each other such as
BLUE to ORANGE or ORANGE to BLUE.
the blue spectra =2nd x
and the orange spectra = 4th x
So then the 2x0,18824 and the 4x0,18824
=0,376 and 0,752
This defines the INTERVAL of the BLUE and ORANGE as the GREEN SPECTRUM of the A type stars.
The density then, being the amount of range from the white or dark in the units remaining after the density has been reversed and the remaining decimal
defines the 10 types of star as from 0,1 to 1,0 as the polarization of non dense vapors in the universe on the scale of another type of density being the
LUCIDITY of 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8 0,9 1,0
Here then , the way to make equations of the polarization of any colors or spectra.
LETS FIND OUT about our Sun and it's position as
having 2 sides of the F type and the K type
These are defined by their ratio's
F type orange stars 4:0,4:0,7
and
K type red stars 6:0.6:0,5
So now our Sun may be known as being = 4/6: 0,4 / 0,6 and 0,7 /0,5 in the direction to the right
and
0,5 /0,7 : 0,6 / 0,4 : 6/4 to the left direction.
There may also be variable motions such as space and time
of
0,7 / 4 : 6 / 0,4 : 0,6 /0,7
having 2 sides of the F type and the K type
These are defined by their ratio's
F type orange stars 4:0,4:0,7
and
K type red stars 6:0.6:0,5
So now our Sun may be known as being = 4/6: 0,4 / 0,6 and 0,7 /0,5 in the direction to the right
and
0,5 /0,7 : 0,6 / 0,4 : 6/4 to the left direction.
There may also be variable motions such as space and time
of
0,7 / 4 : 6 / 0,4 : 0,6 /0,7