Difference in gravity between night and day

<blockquote id="quote"><font size="2" face="Verdana, Arial, Helvetica" id="quote">quote:<hr height="1" noshade id="quote"><i>Originally posted by emanuel</i>
<br />Is there a measurable difference in gravitational pressure between high noon and midnight (i.e., when the sun is directly overhead versus directly on the other side of the earth)? In other sillywords, is it theoretically possible to jump higher when the sun is directly over your head, due to less gravitons pushing down on you?<hr height="1" noshade id="quote"></blockquote id="quote"></font id="quote">For sillywords, that's a non-trivial question. Let's see what others think first. I'll hold my thoughts for a day or so. -|Tom|-

First, one must decide if the sun has its own gravity or is the sun creating scalar spheres of gravity around each of its planets and moons only. Barry Long of book Origins of Man and the Universe calls these the "Ideo.rings" of the sun. They are gravitic IDEAS of the sun....basically information for the planets.

I happen to believe, from an article from keelynet, that the sun has no gravity of its own, confirmed by the thousand mile high arches of magnetic plasmas that occur all the time. If a body as large as the sun had its own gravity, you would not see anything arching above its surface.

Meta

Meta

[emanuel] " ... is it theoretically possible to jump higher when the sun is directly over your head ... "

I would say yes.

An object on Earth's equator (either attached or just resting on the ground) will experience a slightly stronger pull from Sol at noon than at midnight, because the object is slightly closer to Sol at noon than at midnight. This is the cause of the solar component of tidal forces here on Earth.

You should also be able to jump higher when Luna is directly overhead than when it is directly "underfoot".

And, you should be able to jump highest of all when a solar eclipse occurs at noon.

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The difference is not very much, however. I'd guess much less than a millimeter between noon and midnight. Even with Luna helping.

Regards,
LB

But, on second thought ...

There are 2 high tides each day. And 2 low tides. Looking at the solar component only again, there is a high at noon AND at midnight. Approximately. Low tides (from Sol) are at 6 and 18.

So you should be able to jump higher at noon or midnight than at sunrise or sunset.

Tricky. And cool.

LB

Luna should also create two opportunities for a high jump each day. But they will happen at a different time each day as Luna moves in it's orbit. I believe that it's influence on the tides is about 50% stronger than Sol's, so you should be able to jump a litte higher when the moon is overhead than when the sun is overhead.

Combining the gravitational effects of Sol and Luna for a solar eclipse at noon should still give the highest high jump.

<i>Originally posted by Meta</i>
"First, one must decide if the sun has its own gravity or is the sun creating scalar spheres of gravity around each of its planets and moons only."

The solar system is held together by the graviton push towards the largest mass of the central sun. However you could be right if the scalar rings of resonance that you are referring to is a result of higher dimensional demodulation of energies pouring through all things.

"If a body as large as the sun had its own gravity, you would not see anything arching above its surface."

I think that Gravity has to be the result of a return flow of energy from something much grander than this dimension. Maybe there is a tug of war between Gravity on the Sun, and between other sister universe or dimensions causing the release of Antimatter/Matter energy bursts of large coronal discharges. John