- 19 Mar 2015 00:06
#14537707
One of the problems with the standard physics model, is that as you move out from the centre of a galaxy the angular momentum of the stars around the galactic centre is constant or increases slightly. I think I have got this right. If you look at the our solar system or a moon system like the moons of Jupiter the angular momentum falls as you move out from the gravitational centre. The absolute velocity falls as well but not by the same factor. So for example Neptune at 30.1 astronomical units from the Sun (the Earth is at 1 Astronomical unit from the Sun) revolves in a period of 164.8 Earth years. Hence its angular velocity is approximately 165 times slower than the Earth's. This means that Neptune absolute velocity relative to the Sun is a less than a fifth of the Earth's. This accords with predictions of Newtons inverse square law.
To explain this anomaly, Physicists have invented Dark matter. there is a lot of mass we can't see. But how does this help, because increasing the mass of the Galaxy's will not change the gradient of the velocity against the distance from the gravitational centre?
To explain this anomaly, Physicists have invented Dark matter. there is a lot of mass we can't see. But how does this help, because increasing the mass of the Galaxy's will not change the gradient of the velocity against the distance from the gravitational centre?
Progressives lie scattered on Woke's highway, Diverse ghosts crowd the young child's fragile eggshell mind.