Hello, so I just thought about a couple things
>E=mc2
>E(k)=mv2/2
>quarks only account 2% of mass
When quarks are bound together by the strong nuclear force they are kind of rubber banding back an forth, vibrating kinda and due to the motion of them they are producing mass. This makes me wonder if a black hole had a singularity it wouldn't have as much mass as nothing can move outwards thus no motion (kinetic energy) can produce the 98% of mass and therefor the black hole wouldn't be as heavy, thus the schwarzchild radius and mass would decrease which seems to be violating conservation of energy.
Now there is two options here really, somehow the black hole singularity is storing the energy in some other dimension much like how some string theorist think there are small dimensions we can't see.
The other option is that there really isn't any singularity, black holes just has a bunch of quarks packed super densely and they are all trying to escape but the strong nuclear force and gravity is keeping them tightly packed, so they kind of go outwards a bit and then fall right back in, energy conservation is preserved and no funky dimensions needed.
The question is tho if it is the movement that creates gravity or if it is the energy itself, if movement creates gravity then we should see fluctuations in gravity on the quantum scale allowing for particles to lose their mass ass their kinetic energy is converted into potentional energy.
If mass comes from energy then photons would have mass and therefor they can't travel at the speed of light
How can we test this? is there any math that can support this?
>E=mc2
>E(k)=mv2/2
>quarks only account 2% of mass
When quarks are bound together by the strong nuclear force they are kind of rubber banding back an forth, vibrating kinda and due to the motion of them they are producing mass. This makes me wonder if a black hole had a singularity it wouldn't have as much mass as nothing can move outwards thus no motion (kinetic energy) can produce the 98% of mass and therefor the black hole wouldn't be as heavy, thus the schwarzchild radius and mass would decrease which seems to be violating conservation of energy.
Now there is two options here really, somehow the black hole singularity is storing the energy in some other dimension much like how some string theorist think there are small dimensions we can't see.
The other option is that there really isn't any singularity, black holes just has a bunch of quarks packed super densely and they are all trying to escape but the strong nuclear force and gravity is keeping them tightly packed, so they kind of go outwards a bit and then fall right back in, energy conservation is preserved and no funky dimensions needed.
The question is tho if it is the movement that creates gravity or if it is the energy itself, if movement creates gravity then we should see fluctuations in gravity on the quantum scale allowing for particles to lose their mass ass their kinetic energy is converted into potentional energy.
If mass comes from energy then photons would have mass and therefor they can't travel at the speed of light
How can we test this? is there any math that can support this?
