Measurement of the Gravitational Constant G
SebastianG
Posts: 184
Here is an interesting article about the latest measurement of the Gravitational Constant G:
http://www.nature.com/news/quantum-meth ... nt-1.15427
In my opinion the official "Law" of Gravity is not so universal if their constant is not precise. They should stop calling it a constant if they continue to measure different values. It almost looks like the gravitational constant changes from time to time.
Could gravity slightly change with the density of ether in our solar system? Maybe the sun's 11 year solar cycle could explain a change in ether density. Or is the ether density the cause for the solar cycle?
What do you think?
http://www.nature.com/news/quantum-meth ... nt-1.15427
In my opinion the official "Law" of Gravity is not so universal if their constant is not precise. They should stop calling it a constant if they continue to measure different values. It almost looks like the gravitational constant changes from time to time.
Could gravity slightly change with the density of ether in our solar system? Maybe the sun's 11 year solar cycle could explain a change in ether density. Or is the ether density the cause for the solar cycle?
What do you think?
Comments
On Wikipedia the definition of the gravitational "law" is given.
However if take a look Newtons "second law" we see force related to only one mass.
It seems to me the gravitational force is more a multiplication of two independed forces F = F1*F2
In this case the gravitational force constant should be the square root of G, and will have m^2/s^2 as units.
I'm facing the same issue with the KE and KM constants
For the KE constant, the units will be m^2/s and the KM will have m as unit.....
I've tried to describe this in a document but did not find the clue (yet)....
https://docs.google.com/document/d/1EUl ... sp=sharing