Updated 06/27/2025
Double stars could be due to the splitting of a giant star for the following reason.
A giant star could be more common in small galaxies, and as galaxies grow, some giant stars split or align, creating a larger galaxy with aligned star systems.
Giant stars concentrate a neutron core with greater attraction or a larger field of attraction that could serve to align with other stars or galaxies. By absorbing matter that compensates for star systems or galaxies, such as minerals, they create a tiny charge of electrons and protons that do not orbit the giant star, causing them to split into two neutrons or split into two stars or double stars. These tiny charges of electrons and protons would then orbit the double stars and could give rise to solar storms between the two stars as the planets grow and separate to form a star system.
Video of the Vega double star. You can see a glimpse of a storm releasing green light.
It could be that the gravitational field of a giant star encountering an asteroid in its field, possibly with a virus, which is the one that has the charge of electrons and protons, is responsible for the star dividing and giving rise to the asteroid’s orbit around the star, for the birth of a planet and being the most virgin thing we know.
If the asteroid ring or asteroid is in the gravitational field of these split stars and does not orbit around them, the giant star or double star may possibly split even more stars.
In this image of Capella, captured with my telescope, four stars are seen in its orbit, which could be stars with asteroids orbiting them and stars that split from Capella and could move away to form a star system.
It could also be that giant stars attract neutrons, the same matter as asteroids, and the stars could spread life throughout the universe.
If the universe had a compass, it could be said that giant stars neutralize matter as it travels, and this matter is lost when the stars divide, because matter tries to open a path, which is what causes the stars to divide.
Knowing this, we could understand why small matter explodes in the universe because its protons and electrons are deprived of a gravitational field, producing a nuclear explosion. This expands its protons and electrons, which end up absorbing carbon or minerals, which are its neutrons, which form the asteroid and are attracted by stars. The greater the number of protons and neutrons in this small matter, the larger the asteroid.
That exploding matter could be photons of starlight, and the explosion occurs at the end of its range of sunlight, and each star could contain photons with more or less electrons or protons that absorb certain specific minerals.
Asteroids always create alignments between planets and stars, and deflecting an asteroid’s orbit could translate into the same consequences for planetary or stellar alignments. For example, deflecting an asteroid’s orbit with explosive force could result in a similarly powerful misalignment heating.
The deviation of an asteroid may be minor for the planet, due to its insignificant force, but on the planet it could kill a person, due to a rare disease, sudden death, a heart attack or arrhythmia, due to the force it can exert on the heart and the change in rhythm due to the misalignment of the asteroid, due to the force that person exerts on the planet.
Could the merger of the Milky Way and Andromeda galaxies absorb new stars with new photons of light that form asteroids and could cause new viruses for humans, animals, and plants?
Photons of light in cells attract antibodies that end up on receptors, and photons from an approaching andromeda could be due to an antibody attraction, and if andromeda is separated, the cells are left without photons and the cells can become overfed.
It can also be said that a cell with antibodies and photons of light reproduces into healthy cells, and when it runs out of photons, it becomes overfed and doesn’t reproduce as much. It’s important to know that when there are many photons of light in cells, a chromosome must be generated that can release a virus thanks to the chromosome that was generated and lost.
Causing Andromeda to approach could trigger the reproduction of cells or DNA, but it could happen that in these reproductions of good cells, a virus chromosome is released that could be absorbed by Andromeda.
Could Andromeda, with this virus, remove asteroid load from the solar system or the Milky Way and reduce the number of sperm and egg viruses, for example?
The union of Andromeda and the Milky Way could lead to the death of stars that form nebulae or water that reduces photons and improves mental activity.
Sometimes tumor cells respond to light photon treatment, and those cells, due to their survival mechanism, can create mental suffering due to the side effects of the tumor cells and the survival of the tissue with the affected cells. It is a struggle, sometimes constant.
Changing the subject, it could also happen that a double star sacrifices one star for the formation of water when it takes on asteroid loads in its orbit.