Quote:
Originally Posted by renormalised
Problem Alex.....assuming these particles are fundamental, then they must have the same properties of mass, velocity, KE/PE, spin, charge or whatever. Any variations in these parameters means they're not fundamental particles. In order for your theory to hold water, so to speak, they need to be fundamental particle, otherwise the gravitational metric for your model will change depending on your location within spacetime. If that was to occur, then nothing would appear as it does. Stars wouldn't shine, planets wouldn't form and gravity could take on any value it liked. The universe wouldn't exist...period. Depending on the metric it would either collapse ot fly apart.
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Ok I am convinced so lets go with a fundamental particle as I dont want the stars not to shine just to get my theory up and running
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So we need a model using a standard approach I gather you suggest.
If we do that it really makes things simple and that is what I sort of suggested earlier ..in order to test the idea if we had a computer model that simply stayed on a basic level it would show if stars would comply with observation or not..only problem is I cant built a computer model..yet.
thank again
alex
