The Human Cell and the Plant Cell: Nuclear Symmetry, Entropic Mass, and the Oceanic Biosphere

 The Human Cell and the Plant Cell: Nuclear Symmetry, Entropic Mass, and the Oceanic Biosphere

by Jonathan Olvera

Abstract

This paper investigates the parallel structures and energetic conditions between the human cell, the plant cell, and large-scale cosmic systems including the Sun, Earth's core, and oceanic biosphere. Using a model of numerical entropy and neutron-atomic interaction, the study explores how the gravitational core and solar chromid influence biological and environmental cell manifestation. A special emphasis is placed on the role of dimensional variation, expansion, and arching within radical medians as observed through cellular outcomes in relation to cosmic entropy.

1. Introduction

Cells—whether human or plant—exist not only as biochemical entities, but also as products of larger numerical and energetic systems. This paper proposes that the conditions within the Earth’s core, the Sun’s chromid energy, and the biospheric ocean contribute significantly to the formation, function, and expansion of life at the cellular level. The comparative study of biological cells and cosmic particles forms a foundation for exploring a unified field of dimensional entropy and cellular replication.

2. The Core of the Earth and the Chromid of the Sun

2.1 Atomic and Neutronic Properties

The core of the Earth and the Sun's chromid (a conceptual expression of chromosomal solar energy) each emit numerical sequences that can be modeled as:

  • Numerical Entropy → Governing the random-but-measurable distribution of mass

  • Neutronic Conditions → Influencing solid gravitational points

  • Radical Medians → Acting as transition zones between physical and energetic states

Together, these conditions generate the possibility of a cellulosic structure, including:

  • Dimensional expansion

  • Radial arching

  • Nuclear cell variation in observable forms

3. Biological Cell Manifestation: Human and Plant Cell

3.1 Cellular Parallels and Differences

  • Human Cell: Primarily reliant on internal nucleic control and ionic exchange

  • Plant Cell: Functions through external photonic input (e.g., sunlight), and cellulose rigidity

Yet both share a nuclear pattern that may be aligned with solar numeric outputs and geological forces.

3.2 Cellulosic Manifestation through Earth-Sun Interplay

This nuclear alignment suggests that human and plant cells are outcomes of a predictable matrix derived from:

  • Core-earth gravitational fusion

  • Sun-based chromid signal emissions

  • The balance between entropy and structure

4. The Ocean Manifest and Biosphere Metrics

4.1 Conceptual Proposal: The Ocean as a Predictive Unit

The oceanic biosphere is proposed as a measurable manifestation of outer space entropy condensed into Earth’s surface domain. This offers:

  • Habitable Zoning through mass density and temperature gradients

  • A cell-measure output, reflecting particle interactions similar to those found in deep space

4.2 Darkness and Entropic Parallels

Comparing the darkness of deep oceans and darkness of space, the following observations arise:

  • Darkness in space signifies absence of radiant energy, linked to Kelvin-level measurements

  • Oceanic darkness is bounded by pressure and water mass, forming a temperature volume median similar to solid-unit entropy in interstellar environments

5. Entropic and Dimensional Implications

5.1 Predictive Cellular Outcomes

The balance of Kelvin-based voids, solid temperature units, and particle density could be used to:

  • Predict the manifestation of biological forms

  • Measure viability of cellular replication

  • Assess potential for viral mutation or nucleic extension in deep-environment conditions

6. Conclusion

The interplay between solar chromid emissions, Earth’s gravitational nucleus, and the deep-ocean biosphere demonstrates a coherent system where biological cell formation is a product of dimensional entropy and nuclear sequencing. Human and plant cells reflect broader cosmic principles, and by comparing the behavior of space particles, ocean zones, and cellular structures, new insights can be gained into the fabric of life and its environmental dependencies.

Author:
 Jonathan Olvera
 226 E South Mountain Ave, #4
 Phoenix, AZ 85042

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