Post by Pincho Paxton on Mar 14, 2024 9:28:12 GMT
Dark Matter And Zero Distance
There is a paradox that suggests that you can always half a distance, and there are physics like sound where distances have to come together to propagate each other. The compaction of matter allows for the passing along of a message in waves, but there has to be a minimum distance where you no longer require compaction, and the message passed is instant. For example from one side of an atom to the other you might expect a delay for a message to cross that distance yet we can't keep halving distances like that.
What we really need is a scale that is a bar with no delay period.. zero distance. But zero as 1 + -1 = 0.. with scale.
When you give zero a scale you can now pass a message with no delay period, and you no longer have the paradox that you can always half a distance, because you have a galaxy with a set scale for zero. Although zero can be 1000 + -1000 = 0 entropy would come into play, and even everything out in a galaxy. Larger scales would be bumped more often than smaller scales, and if you scale down things that get bumped the most you have a standard scale per galaxy for zero.
Then you can use that for Dark Matter in galaxies that have a larger scale value for zero, and that would be very hard to find with detectors. I mean finding the zero scale is probably the hardest thing to detect in the whole universe.
However.. it doesn't mean we can't observe the physics that it produces. For example red shift can mean that zero distance is bigger to create longer waves that are redder. It can mean that the galactic curve is flat because a galaxy has a zero scale that grows outwards from the galactic nucleus. So physics cross a larger zero distance the further out you get.
It can mean that the Hubble tension has to do with the zero scale. It can mean that parallax over distances can be a bit odd sometimes. It can mean that orbits are faster in some parts of the universe than others.
You may think that zero having scale is a strange idea, but it works in maths, and it fixes a paradox, and you are giving zero a scale anyway even if you don't know it... you have to allow a point to cross a distance instantly, you can keep making it smaller, and smaller but all you are trying to do is to fool yourself. If it was tiny, and you zoomed into it with a microscope of some sort it would still look big, you may as well allow it to grow.
So by growing zero scale you get physics for inertia, angular momentum, acceleration, speed, magnetism, gravity, Dark Matter. So it covers a lot of physics.
Pincho Paxton
There is a paradox that suggests that you can always half a distance, and there are physics like sound where distances have to come together to propagate each other. The compaction of matter allows for the passing along of a message in waves, but there has to be a minimum distance where you no longer require compaction, and the message passed is instant. For example from one side of an atom to the other you might expect a delay for a message to cross that distance yet we can't keep halving distances like that.
What we really need is a scale that is a bar with no delay period.. zero distance. But zero as 1 + -1 = 0.. with scale.
When you give zero a scale you can now pass a message with no delay period, and you no longer have the paradox that you can always half a distance, because you have a galaxy with a set scale for zero. Although zero can be 1000 + -1000 = 0 entropy would come into play, and even everything out in a galaxy. Larger scales would be bumped more often than smaller scales, and if you scale down things that get bumped the most you have a standard scale per galaxy for zero.
Then you can use that for Dark Matter in galaxies that have a larger scale value for zero, and that would be very hard to find with detectors. I mean finding the zero scale is probably the hardest thing to detect in the whole universe.
However.. it doesn't mean we can't observe the physics that it produces. For example red shift can mean that zero distance is bigger to create longer waves that are redder. It can mean that the galactic curve is flat because a galaxy has a zero scale that grows outwards from the galactic nucleus. So physics cross a larger zero distance the further out you get.
It can mean that the Hubble tension has to do with the zero scale. It can mean that parallax over distances can be a bit odd sometimes. It can mean that orbits are faster in some parts of the universe than others.
You may think that zero having scale is a strange idea, but it works in maths, and it fixes a paradox, and you are giving zero a scale anyway even if you don't know it... you have to allow a point to cross a distance instantly, you can keep making it smaller, and smaller but all you are trying to do is to fool yourself. If it was tiny, and you zoomed into it with a microscope of some sort it would still look big, you may as well allow it to grow.
So by growing zero scale you get physics for inertia, angular momentum, acceleration, speed, magnetism, gravity, Dark Matter. So it covers a lot of physics.
Pincho Paxton