Does gravity affect water

Answer 1

Gravity affects atoms and molecules just like it affects planets. Anything with mass will put a "dent" in the fabric of spacetime and attract anything else with mass. It is a fundamental law that cannot be ignored. You know that gravity is one of the four fundamental forces in the universe, along with the electromagnetic force and the strong and weak nuclear forces. But this excellent question suggests something. There is, in fact, a catch to gravity as regards atoms and molecules, and let's look at it. Though gravity is a part of all quantum mechanical activities on the atomic and molecular scale, it is a relatively weak force compared to the electrostatic forces (electromagnetic forces, actually) that rule here. Electrostatic forces are much more powerful on this scale than gravity, and the effects of gravity are barely noticeable when we look at atomic and molecular activity. That's why charge, charge distribution and charge balance are considerations throughout all of chemistry, and suggestions regarding gravitational effects are simply absent from the texts. Mass is critical in chemistry, of course, but gravimetric effects stemming from mass are minuscule. It's not that gravity took the day off. It did not, and the quantum physicist knows this well. But the chemist can simply ignore gravitational effects and float along by assessing electrostatic interaction between atoms and molecules. Chemistry is a large enough challenge as it is, and the chemist can operate quite satisfactorily looking at only electromagnetic forces.

Answer 2

The first “ Law of Atomic Gravity “ describes the mechanism nature uses to mediate the force of gravity across distances in space. The three laws lie at the heart of science and have been experimentally tested many times. Academic supporting experiments are outlined in this answer. It is a good read for anyone interested in how gravity works and interlinks across the sciences. Welcome to twenty-first century physics.

Atomic Gravity Summary

The basic structure of all atoms is a tiny nucleus at its center and a relative vast volume (over 99% of the atoms structure) of empty space all enclosed by a relative distant electron sphere. Atoms are the elemental building blocks of all objects including yourself.

The simple structure of atoms enables three basic responses. Electromagnetic radiation interactions during excitation. Sound and seismic waves from kinetic inputs. Weight changes when gravity fields fluctuate.

Gravity at the atomic scale works 24/7 here on Earth and is ubiquitous throughout the observable Universe.

Nature itself has followed a set of unified principles without question or hesitation for many many millennia. The three laws of “Atomic Gravity” are the missing link to unifying the four fundamental forces of nature.

Three Laws of “Atomic Gravity”

Law #1

Examine a system of a planet and it's one orbiting moon.

Physical Factors:

1. The total mass (gravity signature (GRS)) of each structure.
2. The distance between the central gravitational points of each structure.
3. The relative velocity between each structure.

Now consider a single atom on the surface of the planet. The nucleus of the atom is shifted relative to its central point toward the central gravitational point of the planet. As the moon transits over the atom, the nucleus of the atom, contained inside its electron sphere shifts towards and tracks the moon relative to its transiting velocity. The slight shift of the nucleus is relative to its own central point and away from the central point of the planet; toward the transiting center of the moon, tracking the moon’s transit and then resettling back to its original position prior to the moon's transit. This effect on the atom is called atomic gravitational fluctuation type 1 (AGF 1). See diagrams below.

Note: During the moon's transit the gravitational energy transfer between moon and planet is a simple force concentrated in each atom which twice daily moves millions/billions of tons of ocean water.

Atomic gravitational fluctuation (AGF 1) occurring in any gravitationally bound planetary and moon system interacts within the constraints of the structure of each individual orbiting body. Each atom’s nucleus fluctuation is dependent on its position within the atomic environmental structure (AES) of either the moon or the planetary body and the relative AGF 1 inputs. Interaction is more observable in large structures of atoms in their fluid state within the interior, on the surface, or in any atmosphere present within each system. Atmospheric fluids of great relative depth will demonstrate a more robust accumulated system reaction to the external AGF 1 energy input.. Law #1 explains how the large transfer gravitational energy from orbiting structure works in the atmospheres of the Sun, Saturn, Jupiter, and Neptune. This information enhances knowledge and solutions and innovation.

Atomic gravitational fluctuation (AGF 1) in each atom in the atmosphere, at the surface, or in the interior of a planet is constantly influenced by the relative alignments to its Sun or moon(s) and any additional planetary systems or areas of matter contained within its solar system.

Observations show that individual solar systems demonstrate the influence of atomic gravitational fluctuation (AGF 1) interaction with all the different gravity signature’s in its galactic structure. The gravitational behavior of the gravity signatures in galaxies operate differently from simple Newtonian solar systems and eliminates the need for conjured dark matter. The first law of atomic gravity demonstrates the far reaching gravity influences of the very small and the very large.

Experimental Verification:

In Feb. 2018 a portable atomic clock experiment demonstrates time dilation as a mechanical property of atoms. “For The First Time, a Portable Atomic Clock Has Been Used to Measure Gravity” This is an example of academia working with the principles of atomic gravity.

The principles of atomic gravity disprove general relativity on this one! “ How time di

Answer 3

Yes. Many forces can affect atoms, and gravity is one of the weak ones.

Answer 4

Yes. Water falls just like everything else with mass does. If gravity did not affect water, it would be difficult to pour.

Answer 5

Gravity pulls on an atom

Answer 6

No.