The organized energy field acts unseen as a virtual database of quantum mechanics .Quantum physics is a subfield of physics that describes the behavior of matter and energy at the atomic and subatomic levels, while “structure physics” is a broader term that can refer to the study of the arrangement of matter and energy, encompassing concepts like atomic structure and the arrangement of particles in solids, liquids, and gases. Quantum physics provides the underlying principles for the structure of matter, explaining how atoms and molecules are formed and how they behave.
Structure of physics and quantum physics : classical structure physics: deals with the arrangement and organization of elements within material objects and systems, including natural objects like biological organisms and minerals, and artificial objects like buildings and machines. It also describes the arrangement of particles in states of matter.
Quantum physics: focuses on the fundamental constituents of the universe, such as quarks and photons, and their interactions.
Atomic structure: quantum mechanics is essential for understanding atomic structure, explaining the arrangement of electrons around the nucleus in energy shells, which are discrete regions of space where electrons are found.
Fundamental constituents: in quantum physics, the fundamental constituents of the universe are called quantum fields, which are the building blocks of all matter and energy, with examples including the fields for electrons, quarks, and photons.
Relationship : quantum physics is the foundational theory that explains the “structure” of matter and energy at the most fundamental level. It provides the rules for how the basic components of the universe behave, which in turn dictates the structures observed in classical physics, such as the structure of atoms and molecules.
For example, the wave-particle duality describes how particles like electrons can behave like waves, with their positions defined by probabilities rather than definite locations, which is a core principle that classical physics does not address.
Here’s a concise explanation of the structure of physics and quantum physics, and how they relate to deeper organisation — including how they might connect to the “organised energy field” concept: structure of physics and quantum physics : classical Physics: the macro structure : classical physics describes the universe at large, tangible scales.
It includes: mechanics (Newton’s laws): motion and forces : electromagnetism (Maxwell): electricity, magnetism, light : thermodynamics: energy, heat, entropy : relativity (Einstein): space-time, gravity, cosmology. These laws provide a predictable, structured framework for how matter behaves at large scales — from falling apples to planetary motion.
Quantum physics: the Micro Structure Quantum physics governs subatomic particles , the fundamental building blocks of reality. Key features: wave-particle duality: particles behave like both waves and particles : quantum entanglement: particles can remain connected over vast distances (non-locality) : superposition: particles exist in multiple states until observed : uncertainty principle: exact position and momentum cannot both be known.This level of reality is less deterministic and more about probabilities, information, and potential.
The organised energy field: bridging both from the perspective you’ve been developing: The organised energy field serves as a structuring force beneath both classical and quantum domains.It may: store universal constants and laws of interaction.
Guide the coherence and stability in quantum systems . Influence how particles “choose” outcomes (e.g. in wave function collapse) . Sustain entanglement and non-local memory in a timeless, non-material way.This field might explain why order emerges from probability, and how consciousness could interface with matter.
Unifying insight classical physics describes the macro-structure: stable, observable systems. Quantum physics reveals the sub-structure: uncertain, probabilistic foundations. The organised energy field introduces a meta-structure: coherence, memory, and unity across scales.
Summary ; physics is layered: Classical laws govern the visible world. Quantum rules govern the invisible foundation. An underlying organised energy field may provide the invisible blueprint , connecting particles, information, and consciousness across space and time.
Quantum mechanics and the organized energy field
In this section, the complexity of quantum mechanics and its challenges are explored within the framework of the organized energy field.
Quantum phenomena like the duality of matter, uncertainty principle, and observer effect are discussed, suggesting that the organized energy field could explain these phenomena. Relativity, gravity, and anti-gravity are also addressed, with a focus on their complementary roles in space and time.
The merging of space and time, particle-wave duality, and the organized energy field as a ‘cocoon of matter’ are highlighted as essential for evolution. Phase transitions between dimensions and information processing through waves and interference holograms are discussed within the uncertain domain of quantum mechanics.
The role of the observer, both at the quantum and macro levels, is emphasized, suggesting a subjective influence on matter. Overall, the section explores the interplay between quantum mechanics, relativity, and the organized energy field, proposing new insights into the nature of reality.
This section delves deeper into the complexity of quantum mechanics and the challenges of understanding matter at the most elementary level. The duality of matter as both particle and wave, along with the uncertainty principle, makes measurement at this level problematic and introduces a subjective element into observation. The organized energy field is proposed as a candidate to explain this phenomenon. It also emphasizes that the observer, as part of the system, plays a role in the measurement process and even in the interpretation of the data.
Additionally, relativity is discussed, with gravity and anti-gravity mentioned as complementary forces directed respectively towards space and wave/time. The merging of space and time, the particle-wave duality, and the expression of the organized energy field as a ‘cocoon of matter‘ are described as essential for evolution and organization.
Phase transitions between dimensions and information processing via waves and interference holograms are also cited as part of the functioning of the organized energy field within the uncertain domain of quantum mechanics.
Quantum mechanics demands great imagination. Matter manifesting as both particle and wave is far removed from the normal human perception of the material world. At the elementary level, the material world is diffuse and difficult to describe because measuring position or momentum accurately simultaneously is not possible. The uncertainty principle poses a measurement problem with far-reaching consequences. The collapse of the phenomenon being measured is a remarkable event.
A kind of interaction between matter and perception is suggested, assuming a subjective force that influences matter at an elementary level. Measurement adds quanta of light to the observed object. The organized energy field could be a candidate to explain this phenomenon.
The observer causes the measurement problem at the quantum level, and the observer causes relativity at the macro level. The organized energy field (cocoon) is part of all systems of life and matter, despite the success of reductionism. Time manifests as a wave at the quantum level.
The measurement problem in quantum mechanics was one of the main issues that led me to develop my ideas. The observer (the organized energy field) is part of the system.
The subject of observation is influenced by measuring equipment set up and operated by human hands and force. The interpretation of measurement data is a thought process of the organized energy field. Measurement is done mechanically, but the machinery is made by human hands and force. The component of human action and judgment is indirectly represented in the measuring equipment.
Relativity
In addition to gravity, which is particle-oriented and thus space-oriented, there is anti-gravity, which is wave/time-oriented and, via photons, creates the complementary force field responsible for the permanently expanding universe and the phenomenon of time (wave-oriented). The small difference between collapse and expansion can be traced back to the small difference between matter and antimatter at the Big Bang. In the absence of an excess of gravity, collapse would occur.
The opposite (charged) anti-gravity, which is wave/time-oriented, and macro-gravity, which is space-oriented, alongside the particle-wave duality, where the wave energy is wave- and time-oriented, alongside the particles that are mass/matter and space-oriented. In the merging or phase transition between space and time, and between particles and waves, the organized energy field finds its expression as a cocoon of matter. Separating matter and antimatter enables evolution and organization.
In the phase transition where time and space are gone, structuring information (the organized energy field) can be dimensionless and perform evolutionary work within the uncertainty principle and the particle-wave duality. Information processing occurs through waves and interference holograms.