Re: Anti-gravitational effects demonstrated using a Van De Graaf generator

On Feb 2, 1:35 am, frankli...@xxxxxxxxx wrote:
The Coulomb force is about 10^32 times
greater than the gravitational forcehttp://hyperphysics.phy-astr.gsu.edu/hbase/electric/elefor.html

All this means is that if you took a pound of protons and compared the
force generated by that to the force generated by a pound of neutral
matter, you'd see this big difference.

Where do you find a pound of protons?

But the nature of the force is
very similar.

Yes...
Both are isotropic and diminish by 1/r^2

The reason why gravity is so weak is because it is
nothing more than a diluted electrostatic force.

It that the reason magnetic force and London force it
weaker than Coulomb force ?


If you took 10^32
neutral atoms and plucked out one electron, that mass would generate a
force with exactly the same magnitude as gravity.

http://www.google.com/search?hl=en&q=tate+mass+anomaly&btnG=Google+Search

I believe this is
exactly what is happening. So I've completely explained the
differences in force magnitude without resorting to multiple hidden
dimensions as is the fashion these days. The difference in force
strength is no indicator of a different nature.

I don't know that is considered "fashionable". If a mathmatician
needs more sheets to scribble on, there is no law to prevent it.

The readers of the work judge whether the calculations are
logically grouped on an approprate number of sheets.


To put it another way, if you take a drop of red dye and dillute it
into a 100 gallons, the difference in shade between the concentrated
red dye and the dillute water does not mean that the red dye in the
100 gallons is different just because it has a lighter shade. It is
still exactly the same thing. You wouldn't say that the shade of color
in the 100 gallons is 10^32 times lighter than the original red drop,
therefore, it cannot be caused by the same thing.

Indeed... Can you see the same *dilution* where the Coulomb
force is ~diluted~ by the superposition of moving charges?

The result is magnetic force in the nearfield,
light in the farfield, and the patterns are anisotropic.

http://en.wikipedia.org/wiki/Multiple_integral#Some_practical_applications

Sue...

Time-independent Maxwell equations
Time-dependent Maxwell's equations
http://farside.ph.utexas.edu/teaching/em/lectures/lectures.html
http://web.mit.edu/8.02t/www/802TEAL3D/teal_tour.htm







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