Is Gravity an Accumulating Emission of Matter or a Non-accumulating Radiation from Matter?

Recent evidence suggests that gravity may be an accumulating emission of matter rather than a non-accumulating radiation from matter. This article explores the reasoning behind this assertion and the implications it has on our understanding of gravity.

Evidence for Gravity as an Accumulating Emission

Gravity maps demonstrate seasonal and gradual changes over time, which point towards gravity being an accumulating emission rather than radiation. If gravity were radiation, one would expect gravity maps to remain static due to the lack of mass change or movement. However, gravity maps show fluctuations related to climate variations, similar to the dynamics of weather pressure maps. These fluctuations indicate that gravity acts like a fluid, draining to lower altitudes, rather than radiating off mountains as one might expect from radiation.

Gravity Draining to Lower Altitudes

Gravity maps highlight the distribution of gravitational forces in different altitudes. At Mount Everest, for example, the mountaintop region has the least gravity due to its elevation, while the valleys show accumulations of more gravity. This distribution pattern supports the idea that gravity is an accumulating emission, not radiation. In radiation, more gravity would be expected at the peaks of mountains rather than in the valleys.

Experimental Evidence and Limitations

The Cavendish experiment, widely used to determine the strength of gravity, can only work over small distances. This limitation further supports the idea that gravity is an accumulating emission rather than radiation. If gravity were a radiation, we could set up a scaled Earth-Moon Cavendish experiment and measure the force between them just as in theory. However, current Cavendish experiments cannot be sensitive beyond a few 100 mm, suggesting a more complex mechanism at play.

Einstein and Newton's Theories

Einstein and Newton considered gravity as an Aether medium with measurable density variations. They proposed that gravity produces a negative pressure gradient, which supports the notion that gravity acts as an accumulating emission. A positive pressure gradient would dissipate into space, whereas a negative pressure gradient would accumulate around matter, explaining the observed gravitational behavior.

Implications and Further Explore Measures

The inability to get a consistent measurement of the gravitational constant (G) also supports the idea that gravity is an accumulating emission rather than radiation. While light is a highly controllable and measurable radiation, gravity fluctuates, indicating that mass may not be the only factor determining G. If mass emits gravity as a negative pressure gradient, the surrounding pressure gradient will always dominate and contaminate any experimental results.

Gravitational Fluctuations

Experiments have shown that gravity can fluctuate due to temperature variations. A weight was measured above and below an insulated box containing high lux bulbs. The weight was found to be heavier on top and lighter below, indicating that gravity pressurizes the surrounding pressure gradient through heat, affecting gravitational behavior.

Gravity After Mass Loss

Exploding stars that send most of their mass into outer space while leaving their gravitational footprint intact further supports the idea that gravity is an accumulating emission. This phenomenon shows that gravity remains after mass has largely dissipated, indicating that it is not solely dependent on mass.

Implications for Our Understanding of Gravity

The concept that gravity is an accumulating emission sheds light on Einstein and Newton's theories. Einstein viewed matter and gravity as two separate entities with a symbiotic relationship. According to his theory of relativity, mass tells space how to bend, and space tells matter how to move. In simpler terms, mass produces gravity, causing a pressure gradient around it, and this gradient guides the movement of matter.

Gravity as an Emission

Gravity is essentially an emission of matter that forms the gravitational field. Matter floats within this field, moving independently while being restrained by gravity. This understanding has significant implications for our broader understanding of physics and the interaction between mass and space.

In conclusion, the accumulating emission theory of gravity offers a compelling alternative to the radiation theory. It expands our knowledge and provides a more robust framework for understanding the behavior of gravity in various circumstances, from the gravitational imprint of stars to the dynamics of weather pressure maps.

Further research and experimentation will be necessary to fully validate this theory and refine our understanding of gravity. As we continue to explore these concepts, we may uncover even more intriguing aspects of the universe governed by this mysterious force.

Keywords: gravity, accumulation emission, radiation from matter