Galaxy Rotation
Galaxies increase their mass using cold and magnetic fields. New atoms occur in the magnetic field as the temperature approaches zero Kelvin degrees.
Parts of the mass that are created can be observed over the galaxy disk, it is the mass that breaks the light from behind galaxies.
To test if magnetic fields and cold down to absolute zero give new mass then it must be possible to put together something similar drawings below
High voltage experiment
Bilde 1: Høyspentkabel med porselens ringer.
Bilde 2: Heliumtanken innvendig.
Bilde 3: Heliumtanken med til og fra rør.
Bilde 4: Heliumtank med høyspentkabel.
Helium will bring temperatures down to zero Kelvin degrees, the high voltage cable will provide the magnetic field needed to create new mass.
High voltage cable, as shown in the drawings above, should emit a strong magnetic field. The experiment should be tested with great variation in
current and great variation in voltage. The pipes that go through the helium tank are there to get a room that only contains air, or nothing if the
experiment is done in a vacuum chamber. The pipes are there in case the room in which new atoms are to be formed, must be fairly empty for mass.
The room the experiment is being done in should also be monitored for increase in new atoms, most likely hydrogen atoms. The air in the room/chamber
should also go to the treatment plants.
To create something similar to the magnetic field of the stars, it should be something that rotates like the axis in the drawings below.
Magnetic experiment
Bilde 1: Magnetforsøket i demontert visning.
Bilde 2: 1224 30x10mm Neodym magneter.
Bilde 3: Magneter plassert i Aksling.
Bilde 4: Magneter og Aksling tredd inn i rør.
Bilde 5: Lager montert på aksling, stag påsveist heliumtank.
Bilde 6: Lagerhus montert til stag, elmotor påmontert lagerhus.
Bilde 7: Vist fra annen vinkel.
If the magnetic experiment works as I think, then it will help to show us how all objects with magnetic fields in space create new mass.
This will be bad news for us, as the asteroid belt between Jupiter and Mars has many objects. The more magnetic objects that orbit the sun,
the more mass will be created. The mass will have an exponential growth.
The magnetic field of our own sun has made the sun a star, by being at the center of the mass it has created in its own magnetic field
The sun does not need to increase as much as one gram in mass, as an increase in the mass created in the sun's magnetic field will
ensure that the mass draws itself into the sun because the sun is the point of rotation of the objects that orbit the sun
The experiments described above are perhaps too small to get a clear answer as to whether cold plus magnetic fields gives new mass (Hydrogen). Have read online that the
particle accelerator in CERN uses almost 100 tons of helium to cool the magnets in the 27 kilometer long LHC (Large Hadron Collider) circle. The LHC is also much
more affected by the earth's and the sun's magnetic field, as it is much more extensive than my experiments are. Hope they also balance the air, for excess hydrogen, which is in the LHC circle.
Due to its size, CERN will be able to provide a clear answer as to whether new mass is created in cold and magnetic fields.
We should probably find out this question as it will be too late when we are fried in our own fat from the frictional heat of asteroids that have been destabilized by Jupiter's orbit around the sun.
If magnetic fields in temperatures down to 0 Kelvin degrees give new mass, then it will most likely give us the future propulsion system in space. It will also probably allow us to beat the speed of light.
Galaxy rotation
Galaxies most likely start with a large object. The object is massive and has a strong magnetic field. Can well imagine the rings that Saturn makes with its magnetic field,
only on a larger scale. Galaxies probably also derive some mass from what can be described as empty space.
To get a galaxy disk, we must assume that the massive object rotates and the magnetic field rotates in step with the object, which will cause the mass to be created in the magnetic field
will rotate around the object at the same speed as the magnetic field rotates.
The mass that is created will have the object as a point of rotation, it will give an increase in the gravitational forces in the center of what becomes the galaxy.
The object will exist as long as the gravitational forces do not exceed the mass's ability to exist.
The images of some ring galaxies show that the stars in those galaxies must have a strong magnetic field and a strong gravitational field. The gravitational field gets the mass that the magnetic field has created
to emit photons so that it looks like the ring galaxy has a star in the center of the ring galaxy. It can tell us that those stars have the potential to be the candidates for the object that can
start a new galaxy.