That one side of the universes history is the same as the story of the other side of the universe.
So what needs to be defined are the basic facts of having the minimal and using them to
define how to share the basics as every star and galaxy has some similar law of sharing
the history of the universe.
by Henryk Szubinski
Just like making a section of an apple, the 2 sides of it are F related as the delay in time of it's halves ,so that the basic AREA of the universe = the basic section into 2 halves that do not displace beyond their square of the universe so that stillness and motion are interactive and the halves of the apple have this area that defines the amount of light that reflects from the surface of the open halves and basically defines the basic age of the universe in relation to time of light as the universal speed of light.
Making sections will always result in this mean section value, no mater ,the size of the sphere. It may be an apple, a foot ball , a planet or a star. In the mean of every section the same areas of either side will present themselves as the most stable size as the FORCE that holds their halves stable by the amount of light as c.
Sectioning basically occurs at he shared level when humans are 4 light years from Earth in relation to the projects of cultivating sustainability on other planets and shared responsability of the tasks as the basic 4 light years that one human shares with another human wherever the sides are projected. This projection basically sections the place that occupies the exo planetary projects and will give exact results of the relations to the shared halves of the universe at the size where they start to indicate the same Force of sustainability of exo planets and star systems.
That there exists some strange law of our own planet Earth's shared sides also implies that very star system to which we displace from Earth, shares the same shared functions. The theory 4 as the 4 L.Y defines the shared basis of the alpha and beta centauri as having the Proxima for any halves sections of explorers on those systems
as the ASSIST of the Force and the basis of indivcations there as being the UNIVERSAL AREA enterance of G squ. These areas will alsways share it's sides as the equated relations of any halves of presentation and representation and the continum to the larger universe based on the constant appearance of events and astronomical data discoveries as the F G squ =c
Making sections will always result in this mean section value, no mater ,the size of the sphere. It may be an apple, a foot ball , a planet or a star. In the mean of every section the same areas of either side will present themselves as the most stable size as the FORCE that holds their halves stable by the amount of light as c.
Sectioning basically occurs at he shared level when humans are 4 light years from Earth in relation to the projects of cultivating sustainability on other planets and shared responsability of the tasks as the basic 4 light years that one human shares with another human wherever the sides are projected. This projection basically sections the place that occupies the exo planetary projects and will give exact results of the relations to the shared halves of the universe at the size where they start to indicate the same Force of sustainability of exo planets and star systems.
That there exists some strange law of our own planet Earth's shared sides also implies that very star system to which we displace from Earth, shares the same shared functions. The theory 4 as the 4 L.Y defines the shared basis of the alpha and beta centauri as having the Proxima for any halves sections of explorers on those systems
as the ASSIST of the Force and the basis of indivcations there as being the UNIVERSAL AREA enterance of G squ. These areas will alsways share it's sides as the equated relations of any halves of presentation and representation and the continum to the larger universe based on the constant appearance of events and astronomical data discoveries as the F G squ =c
Sirius (/ˈsɪriəs/) is the brightest star (in fact, a star system) in the Earth's night sky. With a visual apparent magnitude of −1.46, it is almost twice as bright as Canopus, the next brightest star. The name "Sirius" is derived from the Ancient Greek Σείριος (Seirios), meaning "glowing" or "scorcher". The system has the Bayer designation Alpha Canis Majoris (α CMa). What the naked eye perceives as a single star is actually a binary starsystem, consisting of a white main-sequence star of spectral type A1V, termed Sirius A, and a faint white dwarf companion of spectral type DA2, called Sirius B. The distance separating Sirius A from its companion varies between 8.2 and 31.5 AU.[24]
Sirius appears bright because of both its intrinsic luminosity and its proximity to Earth. At a distance of 2.6 parsecs (8.6 ly), as determined by theHipparcos astrometry satellite,[2][25][26] the Sirius system is one of Earth's near neighbors. Sirius is gradually moving closer to the Solar System, so it will slightly increase in brightness over the next 60,000 years. After that time its distance will begin to increase, but it will continue to be the brightest star in the Earth's sky for the next 210,000 years.[27]
courtesy of Wikipedia
date 31,01,2016
time: 15;12
That there are some symmetries in the future of the alpha and beta centauri system as human sides displace to the SIRIUS SYSTEM are also verifiable.
courtesy of Wikipedia
Sirius (/ˈsɪriəs/) is the brightest star (in fact, a star system) in the Earth's night sky. With a visual apparent magnitude of −1.46, it is almost twice as bright as Canopus, the next brightest star. The name "Sirius" is derived from the Ancient Greek Σείριος (Seirios), meaning "glowing" or "scorcher". The system has the Bayer designation Alpha Canis Majoris (α CMa). What the naked eye perceives as a single star is actually a binary starsystem, consisting of a white main-sequence star of spectral type A1V, termed Sirius A, and a faint white dwarf companion of spectral type DA2, called Sirius B. The distance separating Sirius A from its companion varies between 8.2 and 31.5 AU.[24]
Sirius appears bright because of both its intrinsic luminosity and its proximity to Earth. At a distance of 2.6 parsecs (8.6 ly), as determined by theHipparcos astrometry satellite,[2][25][26] the Sirius system is one of Earth's near neighbors. Sirius is gradually moving closer to the Solar System, so it will slightly increase in brightness over the next 60,000 years. After that time its distance will begin to increase, but it will continue to be the brightest star in the Earth's sky for the next 210,000 years.[27]
These are the appearance of the sectionings of the sides of the G squ universe as the sides start to displace to either side of the area of the G squ.
The basic force that is keeping it static and in position may be defined by the A position so that are c value may be defined by the total amount of light of any objects in those area seections of the B apparent trajectory and the B's real trajectory.
Sirius appears bright because of both its intrinsic luminosity and its proximity to Earth. At a distance of 2.6 parsecs (8.6 ly), as determined by theHipparcos astrometry satellite,[2][25][26] the Sirius system is one of Earth's near neighbors. Sirius is gradually moving closer to the Solar System, so it will slightly increase in brightness over the next 60,000 years. After that time its distance will begin to increase, but it will continue to be the brightest star in the Earth's sky for the next 210,000 years.[27]
courtesy of Wikipedia
date 31,01,2016
time: 15;12
That there are some symmetries in the future of the alpha and beta centauri system as human sides displace to the SIRIUS SYSTEM are also verifiable.
courtesy of Wikipedia
Sirius (/ˈsɪriəs/) is the brightest star (in fact, a star system) in the Earth's night sky. With a visual apparent magnitude of −1.46, it is almost twice as bright as Canopus, the next brightest star. The name "Sirius" is derived from the Ancient Greek Σείριος (Seirios), meaning "glowing" or "scorcher". The system has the Bayer designation Alpha Canis Majoris (α CMa). What the naked eye perceives as a single star is actually a binary starsystem, consisting of a white main-sequence star of spectral type A1V, termed Sirius A, and a faint white dwarf companion of spectral type DA2, called Sirius B. The distance separating Sirius A from its companion varies between 8.2 and 31.5 AU.[24]
Sirius appears bright because of both its intrinsic luminosity and its proximity to Earth. At a distance of 2.6 parsecs (8.6 ly), as determined by theHipparcos astrometry satellite,[2][25][26] the Sirius system is one of Earth's near neighbors. Sirius is gradually moving closer to the Solar System, so it will slightly increase in brightness over the next 60,000 years. After that time its distance will begin to increase, but it will continue to be the brightest star in the Earth's sky for the next 210,000 years.[27]
These are the appearance of the sectionings of the sides of the G squ universe as the sides start to displace to either side of the area of the G squ.
The basic force that is keeping it static and in position may be defined by the A position so that are c value may be defined by the total amount of light of any objects in those area seections of the B apparent trajectory and the B's real trajectory.
Sirius A on the left and Sirius B on the right. The basics of the 4 x luminoscity and size by reference to distance as indicative of the sides and their size projections as showing the equality of F on the 1/2 way point between them. So that this defines the beginings of rotations about the G square that we will see more of when we start to colonise the SIRIUS STAR SYSTEM.This section in the half way point will have it's shared surface are section like a round sandwitch that defines the exact nr of c photon units as the shared 4 x the Area.