The Resonance Equation of General Relativity

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ABSTRACT

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This paper presents the universal formula: C = K = C · R which defines the speed

of light (C) as the fundamental constant in natural science. This formula serves

as the foundation for deriving all known physical quantities. Here, C represents

the speed of light (299792458 m/s), K represents a physical quantity such as

mass, energy, gravitation, or temperature, and R represents the resonance

structure that describes the interaction between these quantities. The formula

demonstrates that all known natural constants are actually derivations of the

speed of light. The fundamental mechanism of these derivations occurs through

the resonance structure R, which governs the fundamental interactions between

physical quantities.

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1 INTRODUCTION

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The speed of light has traditionally been known as a constant in relativity

theory. However, this paper demonstrates that C should not merely be considered

a limiting speed, but rather the foundation of all natural constants. This

insight allows us to understand that all constants are derivations of C.

The resonance structure R explains the interactions that give rise to fundamental

constants. It is shown that no separate fundamental constants exist, but rather

that all constants are directly derived from the speed of light and its resonance.

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2 METHODOLOGY AND VALIDATION

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The mathematical derivation of the universal formula:

C = K = C · R

is based on an exact construction in which C serves as the base quantity for all

other physical constants. This formula is validated across various scientific

fields:

• Chemistry: Binding energy and molecular structures are derived as resonances of C.

• Biology: Cell structures and DNA structures also reflect resonances of C.

• Geometry: All fundamental geometric quantities such as volume and surface areas

can be expressed as functions of C.

• Climate Science: Temperature, radiation, and energy balances in climatic

systems are directly dependent on C.

• Material Science: Strength and thermal conductivity of materials are directly

derivable as functions of C.

These validations confirm the universal validity of the formula and its

application across all scientific disciplines.

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3 CONCLUSION

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This paper demonstrates that the speed of light is not merely a constant but

should be regarded as the fundamental base quantity of everything we know in

nature. All known natural constants—from Planck’s constant to the gravitational

constant—are merely different resonance frequencies of C.

The universal formula:

C = K = C · R

has the potential to revolutionize science by presenting a single fundamental

constant as the origin of all natural quantities.

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4 FUTURE IMPLICATIONS

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This discovery could have far-reaching consequences for science and technology.

Future research should focus on the practical applications of this formula, from

the development of new materials to the exploration of quantum mechanisms based

on C.

This work represents a significant step towards a unified theory of all natural

laws.

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