Gravity theory

[Cap'n Refsmmat]

Ah, but if it goes wild as it goes on, how can YOU flatten it out?

 

Plus, I don't think any other waves do that.

[Pinch Paxton]

Guitar strings do that when you vibrate them, and put your finger on 1 end you get a more intense vibration in the middle that goes to no vibration where your finger is pressing. But my wave is 3D so it can be flattened out in all directions. Only a large object could flatten some of the vibrations though.

[Cap'n Refsmmat]

Makes sense... But a guitar really isn't an example of such a wave, and typically an object increases the force of gravity (in that area). An object on your model would dampen the force of gravity.

[Pinch Paxton]

It would dampen it between the tightly compacted atoms. It's hard to test gravity inside a block of uridium, or simply just metal. Around the planet you would still get a sloping wave. After the wave sloping towards the planet, you would get a wave sloping away from the planet, then another wave after that which I call anti-gravity because it pushes you backwards. Over short distances. like from here to Mars, these waves are hardly even there. But between galaxies, they could be quite strong. The larger the expanse of space the higher the peaks.

[Cap'n Refsmmat]

Uh.. atoms in outer space really aren't "tightly compacted," considering there's about 200 per cubic centimeter.

[Pinch Paxton]

Two objects colliding in opposite directions at the same speed, with the same weight create zero velocity, but objects traveling on waves must meet in a wave trough to measure the same velocity. The wave trough is the starting point for a planet to begin its existence. Then as it grows it flattens the wave. This is a slow process. Now after all this time we have some planets.

[Cap'n Refsmmat]

But if the waves move how can it stay in the trough?

I think you got your idea from surfing, and that's different.

[Pinch Paxton]

Well a 3D trough is actually a bubble, and I am talking about 3D space, and not flat space. I am talking about waves meeting from all directions at the point of a bubble, then drifting the atom into the bubble. The atoms then spinning around inside the bubble until they fill it, and then they start to squash it outwards. It might be easier at this point to imagine a liquid space rather than a wave through air or something. Or maybe think of it as a message being passed along.

[Cap'n Refsmmat]

So the wave would vibrate in all directions?

What happens if you are at the crest? Do you "fall" into a trough? That would mean, unless the trough was a planet, you actually wouldn't be attracted to it.

[Pinch Paxton]

The original forming of planets would be where waves meet together..vibrate in all directions. You can imagine explosions, and radiation, and all sorts of vibrations that would collide in a central position. Atoms carried to these positions would form the first planets. Then things slowly become logical. As a planet forms, it flattens a wave, and now it is a mightier force. This is hard to picture in 3D. Imagine that the waves are now less resistant. If the waves in space are treacle, then the waves around a planet are more like water, so any space objects are heading into the least resistant area that they can. This is what light would also do if it came upon a migty force like a black hole. It would be travelling fast through treacle, then it would hit a place with little resistance, surrounded by an area of high resistance.

 

Pincho.