Proof – Quantum Admittance

Perspective

Before delving into detailed proofs, it’s pertinent to examine the notion that the speed of energy plays a crucial role. By using charge to alter the speed of energy, a minute change of only 5.79E-19 in ε₀ with a proportional change in μ₀ (μ₀/ε₀ Wave Resonance Constant) yields the gravitational acceleration observed at the Earth’s surface.

Mathematical Proof

The Quantum Admittance (QA) Theory proposes a new perspective on gravity, grounded in the fundamental equation of relativistic physics:

E=mc²

Where:

E represents energy

m represents mass

c represents the speed of light in a vacuum.

This equation shows energy and mass are equivalent and interchangeable

Rearranging the equation to c² = E/m allows for the interpretation of c² as a measure of energy per unit mass. Thus, the speed of light squared can be seen as a fundamental property related to the energy-mass relationship.

This is shown by Maxwell’s equation:

c = 1 / √μ₀ε₀.

Where:

μ₀ represents permeability – the ability accept magnetic flux

ε₀ represents Permittivity – the ability to accept charge

Since energy is fixed by the law of conservation of energy, QA posits movements in mass create changes in c² and vice versa.

This is shown by:

d_c = √(d_m/d_x)

Where:

d_m represents the change in mass

d_x represents the change distance or time.

Using observations from the Pound-Rebka experiement, where time is constant over the path, change in the speed of energy (c²) must be related to change in gravitational mass, i.e. acceleration.

Using this relationship it becomes evident that changes in c² can impact the gravitational field. This is shown with the QA equation for gravitational acceleration:

G_v= -d_x/d_√(ε0μ0).

Where:

ε₀ represents Permittivity in the surrounding field.

μ₀ represents Permeability in the surrounding the field.

Relativity Proofs

Using the above, Quantum Admittance successfully satisfies all proofs of general relativity.

Emperical Evidence

The Pound-Rebka experiment observed a redshift of light (decrease in frequency) with decreasing altitude at the same colorshift if it were the speed of energy changing. There observation: “The shift observed agrees with -4.92×10-15, the predicted gravitational shift for this ‘two-way’ height difference.”

Gravity affects the speed of energy exactly as predicted by the QA gravitational constant.

This follows exactly QA’s positing variable space permittivity and permeability (ε₀ and μ₀) changes the gravitational constant. Additionally, considering that photons are massless particles accelerate instantaneously with this change adds weight to this proof.

Solutions Offered

Here are a few of the mysteries that remain unsolved or discovered as a result of General Relativity. These are easily explained using Quantum Admittance:

Quantization of Gravity

QA addresses the quantization of gravity by recognizing that the impedance of space, which governs the speed of weightless photons, serves as the foundation of the theory. In this framework, gravity is fundamentally connected to the energy of photons due to the grid in the μ₀ε₀ fields, aligning with the principles of Planck’s constant. This understanding, using “quantized photons”, forms the basis for the quantization of gravity. Alternatively, considering the quantization of mass and the relationship expressed by Einstein’s equation E=mc², it follows that energy must also be quantized. Thus, the quantization of gravity can be understood in terms of the quantization of energy.

Big Bang

Understanding the mechanism behind gathering forces, QA offers insights into how matter and energy come together to form structures in the universe. The gathering forces inherent in energy self organization preclude the need for the Big Bang. The fact that the universe did not start from a singularity also solves the varying rate of expansion claimed to be part of the early universe’s expansion rate profile.

Expansion

The fact that the universe did not start from a singularity also solves the varying rate of expansion claimed to be part of the early universe’s expansion rate profile.

Black Holes

With Quantum Admittance, black holes represent extremely dense energy concentrations where light is slowed by an extremely dense μ₀ε₀ field. It can never be so dense as to stop the flow of energy, because it is the flow of energy that builds the field. The speed of energy is asymptotic to zero but never zero.

Mechanism for Planck’s Constant

Within the framework of the QA quantum dipole theory, the spin of the quantum dipole determines to the magnetic field duration. The electromagnetic radiation is limited when the spin rate is higher than the physical radiating dipole half wave length, dissociating it from dipole size and changing radiation impedance. This results in a mismatch with the impedance of space and energy output is reduced.

Observtional confirmation

While general relativity has been extensively validated through experiments, the QA Theory meets these proofs by proposing a slightly different mechanism for the observed results of “curvature of space-time,” that is the “curvature of time-energy. This exchanges the “speed of energy” for the “speed of time” in general relativity while maintaining mathematical faithfulness to classical principles.

QA finds harmony with classical physics and existing empirical evidence. It adeptly elucidates cosmic phenomena without introducing additional constructs like new particles or dark matter.

The LIGO experiment has confirmed the presence of gravitational waves, as predicted by QA. Moreover, based on QA’s alternate explanation for redshift, the theory suggests that the universe may not be expanding as previously thought.

JWST observations showing new data about the age and size of the universe extremely large galaxies at much older times than previously considered possible align with QA. These were considered impossible within the model of an expanding universe.

The JILA experiment has validated that Earth’s gravity gradients cause the frequency of oscillations in an atomic clock, demonstrating QA’s prediction of impedance gradients caused by gravitational organization.

The fact that light (or photons) accelerate at the same rate as mass in a gravitational field is proof that gravity is related to energy, not mass as Galileo first observed This is ignored by both Newton’s and Einstein’s theories.

Future Proofs

As technology advances and our observational instruments become more sensitive, we gain an expanded bandwidth that allows us to peer deeper into the mysteries of the cosmos. Within this vast expanse lies an evolving frontier of energy dynamics, brimming with possibilities yet to be explored. One such intriguing prospect is the existence of larger concentrations of energy beyond the limits of our current observational capabilities. These hidden reservoirs of energy hold the potential to unravel cosmic mysteries, such as the enigmatic rapid expansion attributed to dark energy and the gravitational anomalies linked to dark matter.

The hypothesis of these unseen energy reservoirs presents a compelling avenue for future exploration. Although speculative, it offers a promising path toward understanding fundamental cosmic phenomena. Observational missions like the James Webb Space Telescope (JWST), with its advanced capabilities, stand poised to provide unprecedented insights into these hidden realms of the cosmos, shedding light on their presence and properties.

Moreover, the emergence of mass is elegantly accommodated within the framework of QA Theory, which proposes that particles with mass arise from concentrated energy. This contrasts with mass-first theories and challenges conventional thinking by emphasizing the difficulties in explaining energy, forces, and particle organization if mass is considered the primary starting point.

QA Theory offers a unified understanding of gravity and other fundamental forces mediated by particle exchange, explaining phenomena such as gravitational waves as a result of energy equilibrium and entropy rebalancing. While still in development, QA aligns with a wide range of observations, including interferometer experiments and optical and gravitational wave-based studies.

Occam’s Razor prevails

Occam’s Razor is a heuristic principle that states that the simplest explanation of a phenomenon is usually the correct one. QA is a relatively simple theory, but it is able to explain a wide range of complex phenomena. The simplicity, lack of mathematical complexity, and adherence to classical physics makes QA a promising candidate for a new theory of gravity.