Re: Gravity The Bailey Theory

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Posted by Gene Bailey on January 12, 19100 at 09:34:34:

In Reply to: Re: Gravity The Bailey Theory posted by Gene Bailey on January 02, 19100 at 18:48:25:

: : : GAVITY: A molecules desire to fill a space or void created by molecules in an excited state.

: : How does this mechanism explain the "action at a distance" aspect
: : of gravitation? eg the sun's pull on the oceans can be readily
: : observed in the form of especially high and low tides when the sun and
: : moon's gravitation is aligned (eg at full moon) And yet
: : the sun is millions of miles away, with a hard vacuum in between.
: : How does your thermal mechanism account for this behaviour?

: : : Gravity is nothing more than a result of Thermal Dynamics. I can explain further if you wish. I have proof of this discovery and I am about to finish my book on the subject.
: : : I have been in the news for this discovery and will be glad to share the info. with anyone who is interested. I like Newton, but his research is not complete and
: : : Einstein has messed everyone up with his theory that space is warped.

: : I'm sure you'll agree that the essence of science is that its
: : theories make predictions which we can test. How do the predictions of your
: : theory compare to the behaviour of the binary pulsars which recently
: : gave an astounding corroboration of Einstein's General Relativity. Does your
: : theory predict the same change in period of the pulsars over time?

: : Andrew

:
: In a NATURAL setting, Einstein's theories work beautifully, but if you were to (hypothetically)double the core temperature of just one of the binary pulsars, what would be the result? The cooler of the two would head for the hotter. The Japanese have proven this on a smaller scale. They have discovered that by takeing two like molecules and heating the core of one, will cause the other to fuse to the heated one. This is now being studied as a meathod of fusion instead of the older meathod of colliding the molecules. They are looking only at the electronic aspect of this process. The pulsars, are of relatively the same in temperature and will not hold the same orbit around each other. Two molecules of the same temperature can not be pushed together, nor can they support each other in an orbit. They can only be influanced by each other for a period of time.

: You ask about "action at a distance" and a hard vaccume. True, sound does not fair well in a vaccume, but radiation,magnetic impulses,light, and other such particles do very well in a vaccume. Sound works on vibration. When you remove pressure from a jar, you cause the field, around the molecules inside, to expand and slow their movement. It would be like putting a hand full of balloons in a large jar and then pulling the pressure out of the jar. The balloons stay in the jar and expand until the can no longer move. When the outside pressure is take from a molecule and it expands, it will absorb vibration. This will not influance the factors involved in action at a distance. To us, space does appear to be a vaccum, but it is not as such to a mass as large as the Earth. A flea would not feel the pressure exerted on it if you were to pull it six feet under water, but just try to pull a beach ball six feet under.

: The sun is millions of miles away and yet it can inflict third degree burns on our skin. The sun is an extreamly powerful thermal generator and has a large thermal generated magnetic field. This field is all appart of thermal exchange. Take two like elements both having a neutral field. Heat one and cool the other. The heated one will take on a positive charge and the other a negitive charge. Each field will interact with the other causing a small change in each. You must look at the basic factor governing all life and actions. Temperature is the one sure thing in all matter, be it measurable or not. A variance of temperature can create or distroy. Even Einstein said to look at the obvious and throw out what you cant see. I think he would have picked apart the "graviton".

: Gene

Try the Cavendish experiment of 1798 only do not just observe the existance of gravity. Instead, measure the time it takes for gravity to effect the suspended lead balls and the time it takes for them to meet with the larger, stationary lead balls. After noteing the reaction time do the experiment again only this time heat up the large, stationary balls and cool the smaller, suspended balls. You will find that the reaction time is faster than that of the first experiment.

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: : : : GAVITY: A molecules desire to fill a space or void created by molecules in an excited state. : : : How does this mechanism explain the "action at a distance" aspect : : : of gravitation? eg the sun's pull on the oceans can be readily : : : observed in the form of especially high and low tides when the sun and : : : moon's gravitation is aligned (eg at full moon) And yet : : : the sun is millions of miles away, with a hard vacuum in between. : : : How does your thermal mechanism account for this behaviour? : : : : Gravity is nothing more than a result of Thermal Dynamics. I can explain further if you wish. I have proof of this discovery and I am about to finish my book on the subject. : : : : I have been in the news for this discovery and will be glad to share the info. with anyone who is interested. I like Newton, but his research is not complete and : : : : Einstein has messed everyone up with his theory that space is warped. : : : I'm sure you'll agree that the essence of science is that its : : : theories make predictions which we can test. How do the predictions of your : : : theory compare to the behaviour of the binary pulsars which recently : : : gave an astounding corroboration of Einstein's General Relativity. Does your : : : theory predict the same change in period of the pulsars over time? : : : Andrew : : : : In a NATURAL setting, Einstein's theories work beautifully, but if you were to (hypothetically)double the core temperature of just one of the binary pulsars, what would be the result? The cooler of the two would head for the hotter. The Japanese have proven this on a smaller scale. They have discovered that by takeing two like molecules and heating the core of one, will cause the other to fuse to the heated one. This is now being studied as a meathod of fusion instead of the older meathod of colliding the molecules. They are looking only at the electronic aspect of this process. The pulsars, are of relatively the same in temperature and will not hold the same orbit around each other. Two molecules of the same temperature can not be pushed together, nor can they support each other in an orbit. They can only be influanced by each other for a period of time. : : You ask about "action at a distance" and a hard vaccume. True, sound does not fair well in a vaccume, but radiation,magnetic impulses,light, and other such particles do very well in a vaccume. Sound works on vibration. When you remove pressure from a jar, you cause the field, around the molecules inside, to expand and slow their movement. It would be like putting a hand full of balloons in a large jar and then pulling the pressure out of the jar. The balloons stay in the jar and expand until the can no longer move. When the outside pressure is take from a molecule and it expands, it will absorb vibration. This will not influance the factors involved in action at a distance. To us, space does appear to be a vaccum, but it is not as such to a mass as large as the Earth. A flea would not feel the pressure exerted on it if you were to pull it six feet under water, but just try to pull a beach ball six feet under. : : The sun is millions of miles away and yet it can inflict third degree burns on our skin. The sun is an extreamly powerful thermal generator and has a large thermal generated magnetic field. This field is all appart of thermal exchange. Take two like elements both having a neutral field. Heat one and cool the other. The heated one will take on a positive charge and the other a negitive charge. Each field will interact with the other causing a small change in each. You must look at the basic factor governing all life and actions. Temperature is the one sure thing in all matter, be it measurable or not. A variance of temperature can create or distroy. Even Einstein said to look at the obvious and throw out what you cant see. I think he would have picked apart the "graviton". : : Gene : : Try the Cavendish experiment of 1798 only do not just observe the existance of gravity. Instead, measure the time it takes for gravity to effect the suspended lead balls and the time it takes for them to meet with the larger, stationary lead balls. After noteing the reaction time do the experiment again only this time heat up the large, stationary balls and cool the smaller, suspended balls. You will find that the reaction time is faster than that of the first experiment.

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