I guess I will describe what I believe a star is made of.
If a star loses its ability to produce energy, it will cool down, if it is not impacted and destroyed by any other object. When it cools down and is NOT destroyed but remains floating in space, you have what appears to be a 'moon'.
The moon is a perfect example of what a star would look like if it cooled down and no longer produced energy. I believe our moon used to be one of the smaller dwarf stars in the universe. The moon possesses a magnetic pull, similar to the 'core' of other stars, that is attracted to the magnetic elements within the earth. But because it no longer produces nuclear energy, the moon is drawn closer to the earth every year. And although the moon is also effected and pulled by the magnetic pull of the sun and other objects and stars near it, it is somewhat sustained. The earth also produces energy (but not as great as the sun) that creates a certain gravitational magnetism that repels certain objects from nearing it and depending on the size of the object, it is either burned up or is tossed back out into space again.
By looking at the moon, we see that the core of a star is a solid material that possesses magnetic elements, that, depending on the amount of energy it radiates, we can tell how much of a magnetic force each core of every star possesses.
Stars itself, do not spin. Although scientists claim that the earth may rotate on its 'axis', stars do not possess an 'axis', neither does the moon, since they used to be stars at one point. Rather, stars move closer and further apart from one place to another and they move depending on the magnetic gravitational force created by the energy that's infused
The way the moon reflects the light of the sun is a perfect example of how the dust particles of the moon (after 'crashing' in a collision) would reflect the light from the surrounding stars, giving an illusional effect of a one giant super star that creates the 'eye' of a galaxy, or the 'blackhole'. And when stars collide, they do not always explode into dust particles, because depending on the impact of the collision, they can sometimes end up in giant fragmented pieces called 'meteors'.
Because meteors (fragments of a cooled down star or pieces of a 'dead' star), tend to float out into space, they are not always attracted to other magnetic objects unless it first breaches its gravitational field. The speed in which they travel can either speed up or slow down, as they simply, 'float' through space.
Because there are various 'types' of stars or burning objects, they each possess various types of cores. These cores are solidified according to the chemicals created by the energy they infuse. And by the measure of energy they produce, determines the strength of their magnitude. The less energy they create, the magnetic effect of the core also begins to lose its strength but this stage is last. The magnetic effect begins to die down after the star has completely cooled down after ceasing in its energy production.
I know this may be confusing but bear with me a bit.
Our ocean possesses microscopic magnetic elements that causes high tides when a magnetic effect by both the sun and the dead sun (moon) is at a specific position around the earth. Because the moon is now a 'naked star', meaning it no longer has an unfused surface, it is an exposed magnetic object. That means, that the moon not only effects magnetic gas AND liquid elements on earth but also, solid elements. Gravity itself really has nothing to do with its effect on tidal waves on earth either.. rather, it should be the magnetic rotation of the moon, the sun, other planets and other stars, that has a lot to do with it.
When the moon is aligned with the help of another magnetic object (the sun) at certain positions, there should be a double dose of magnetic activity on earth.
If the sun was die today, it would cool down and become a giant moon. These moons are pushed away by stronger stars in space because of the gravitational force created by the energy the live stars infuse. These moons can be in the form of various sizes, depending how big the star used to be and how hot it burned. The greater the energy, the greater the mass of its core. And the longer it burns, the bigger the core gets. This process is similar to how long a pearl stays within a clam.
Pearls first start out as sand that becomes trapped within a clam. The clam tightly shuts and begins to build layers of certain smooth calcium over the sand. The longer it remains in the clam, the bigger the pearl gets. So basically, a pearl is a tightly impacted ball of multiple layers of calcium. This is the way burning stars creates the mass of its core.
The mass of the core, its magnetic strength and gravitational field all depends on the type of chemical compounds that makes up the infused star. These compounds are gathered in nebulas that are full of magnetic and explosive gases, liquid and solid elements. And depending on the formula, a certain type of star is born.
I believe nebulas are created when two powerful galaxies that collide, explodes. Nebula is the leftover fragments of gases, liquid and solid particles that still possess magnetic attraction and it is this attraction that begins the process of creating stars and galaxies all over again. Because if an impact of two powerful supernova stars collided, it would no doubt explode and is enough to send the surrounding stars to a nuclear explosion as well. This process is, what I believe to be a solar system's form of a decaying process. When the explosion breaks each matter down, it scatters particles of elements everywhere, breaking it down into a giant dust cloud. And when the explosion dies down, the magnetic elements of gas, liquid and solid, become drawn to each other to create a chemical reaction that could end up creating various type of stars. Magnetic attraction is a form of gravity.. it becomes an electromagnetic gravity if the chemicals compounded together reacts to form a star or any other type of object or matter.
When a meteor or a 'dead star' is floating in space, depending on the size, it can be trapped within another object's gravitational field. When it becomes trapped, the trespasser will either then, collide into the object by its magnetic attraction, or it will simply, rotate around it because the magnetic attraction is too weak due to the size and magnetic compound of the meteor. This is similar to our planetary system.. which in fact, is how the planetary system is born.
Planets or objects trapped within the field of another bigger object, themselves, rotate due to the magnetic effect the object has on it. These objects can be spun, tossed back and forth, and travel in various directions according to the right measure of gravity and magnetic force WHILE they are rotating around the more powerful and larger object.
A star can be salvaged according to the right chemicals present in space. If a star's surface begins to stop producing energy, the nebula is a perfect place where it can be regenerated. However, I believe stars are often pushed out of nebulas after they've become a certain stage.. and depending where they are in the nebula, they can either be a dwarf weak star, a small supernova, a supermassive nova star or a weak supermassive star, ect. Either they are pushed out of the nebula or the nebula cloud itself travels away from its destination, slowly or it will scatter to the point where the clouds have disappeared and all that's left are the stars and objects it has created. But still working on that theory..
Anyway, I guess that's alot for now.. hope I explained it in a way you can understand..
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