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1. Earth's Structure and Environment:
- The Earth is a flat and stationary plane, enclosed by a dome-shaped magnetic taurus field. This magnetic dome repels a sea of liquid hydrogen, creating a pressurized bubble-like environment that contains all matter on Earth.
- The repelled hydrogen acts like the surface of a lake, forming a boundary that could be described as glass and that maintains the Earth's stable, pressurized environment.

2. Composition and Behavior of Matter:
- Objects are composed of protons, neutrons, and electrons. While protons and neutrons remain constant, electrons can vary in number depending on the type and size of the atom.
- Some atoms are larger and have more capacity to hold electrons, creating a subtle balance of forces, similar to air pressure, but with added complexity due to the varying capacities of different atoms.
- Electrons naturally seek to balance these forces, distributing themselves to maintain equilibrium. This process is akin to how air pressure equalizes across different environments, but it involves the specific interactions between atoms that differ in their ability to hold and exchange electrons.

3. Electrostatic Gravity:
- The Earth carries a slight negative charge, having a small surplus of electrons compared to protons.
- A voltage gradient exists near the Earth's surface, increasing by 120 volts per meter as altitude increases. This gradient creates the force we perceive as gravity.
- When an object is on the Earth, it is "grounded," meaning it is in a state of electrostatic equilibrium with the Earth's negative charge.

4. Gravity as Electrostatic Attraction:
- When an object is lifted off the Earth, it enters a positively charged environment where surrounding particles can strip away some of its electrons, leaving the object positively charged.
- This positive charge compels the object to seek equilibrium by attracting electrons, which are most abundant near the Earth’s surface.
- The object is therefore drawn back to Earth, an effect we perceive as gravity, but is actually the result of electrostatic attraction, similar to the way a charged balloon attracts hair.

5. Atmospheric and Atomic Considerations:
- There is no true empty space; gases and particles always expand to fill any void. Rising in altitude does not reduce particle density but exposes the object to smaller particles, like comparing ping-pong balls to basketballs.
- As demonstrated in laboratory conditions, atoms expand and contract based on their environment. For example, a partially inflated balloon placed in a vacuum chamber will expand as the vacuum increases, showing that the space within the atom’s valence shells is what expands and contracts.
- This objectively observable phenomenon underlies the wave-like behavior of matter and particles, reinforcing that atoms are dynamic, with their internal spaces capable of expansion and contraction.

6. Empirical Evidence and Reinterpretation:
- The expansion and contraction of atoms in response to environmental changes are objective and reproducible in laboratory settings, serving as proof of the underlying dynamics of matter.
- This observable phenomenon aligns with what was historically considered necessary in scientific frameworks and reinforces the idea that gravity is a result of electrostatic forces, not a warping of space-time.

This theory posits that gravity is fundamentally an electrostatic force, with the observed attraction between objects being a result of the drive for equilibrium in a charged environment. The dynamic behavior of atoms, proven through reproducible experiments, supports this view and offers an objective explanation for the nature of gravity.