Originally Posted By: Bill S.
Surely Gauss's law (theorum)relates to electrical charge; so it would apply to gravity only if you could show a real link between the two. You would need to do more than simply state that there was a link, but you probably have done the maths already. You have obviously thought much about it.

The three real forces, electrostatic, magnetic and gravitational, have fields and obey the inverse square law. Thus there is enough logic to assume that Gauss's law will be valid for gravity.

Of course, I have mathematical proof to show that the electrostatic energy of an electron is mc^2/4. When two electrons touch each other,the force is the maximum and I propose that the whole electrostatic energy is used then. If we use the classical radius of electron, then the above result can be obtained. The gravitational energy of electron is also the same, mc^2/4. So for calculating electrostatic force between electron and a positron, we can use the gravitational constant of electron. And, it is possible to derive the present value of G from the gravitational constant of electron.