Mixed Physical Structures
From Evolutionary Knowledge Base
Contents
Definition
Mixed Physical Structures of Information are the result of the Physical Interactions of Vortices (Physical Structures of Conservation) and Waves (Physical Structures of Propagation).
They are characterized by higher levels of complexity than those of the interacting structures (e.g. at the physical level, the more complex protons and neutrons are composed of more elementary quarks and bosons).
Common definition
Links to Wikipedia pages:
Description
See also
- Dynamics of Physical Structures of Information
- Structures of Information
- Physical Structures of Information
- Cognitive Structures - Representations of Reality
- Waves
- Vortices
- Physical Interactions
- Classification of Physical Structures
- Properties of Physical Structures of Information
- TFNR - The Structures of Information
- TFNR - Waves – Radiation
- TFNR - Vortices – Elementary particles of matter
- TFNR - Mixed structures – Complex vortices/particles and interactions
- TFNR - Interactions between matter and radiation
- TFNR - Properties of the Structures of Information and the connected derived forces and fields
- TFNR - The Structures of Information
- TFNR - Waves – Radiation
- TFNR - Vortices – Elementary particles of matter
- TFNR - Mixed structures – Complex vortices/particles and interactions
- TFNR - Interactions between matter and radiation
- TFNR - Properties of the Structures of Information and the connected derived forces and fields
- TFNR - The world of granularity: structures and the quantum
- TFNR - Why quantum?
- TFNR - Structures in the quantum world?
- TFNR - Quantum structures and quantum fields?
- TFNR - Potential energy of a quantum field
- TFNR - Wave, Vortices, Interactions: Radiation and Matter
- TFNR - The duality problem: wave vs Particle models of e.m. radiation and particles
- TFNR - Waves and vortices (simple particles) moving in the Field
- TFNR - No point particles, no singularities
- TFNR - The emergence of granularity
- TFNR - Jelly balls in jelly flippers: the weirdness of quantum world
- TFNR - Quantum structures in a continuous world: continuity and quantization
- TFNR - Quantum fields in the terms of the structure and dynamics of the Elementary Field
- TFNR - Fields always exists even when they do not appear: events and phenomena as manifestations of fields
- TFNR - Energy, coherence, correlation
- TFNR - The Standard model of particles is substantially correct, but…
- TFNR - The non-particle nature of the most part of the world
- TFNR - Are we made of baryonic matter?
- TFNR - Gravitational and electromagnetic fields as a partial view of the dynamics of the Elementary Field
- TFNR - A general concept of Inertia
- TFNR - Complex forces and fields
- TFNR - Continuity and quantization, fields and particles, waves and vortices: the duality
- TFNR - Locality, separability, individuation and measurement
- TFNR - Observing Structures from absolute or relative perspectives
- TFNR - The duality problem: Wave vs Particle models of e.m. radiation and particles
- TFNR - The “weird” misunderstanding about waves: one cycle, more cycles
- TFNR - Double slits and other key experiments
- TFNR - Entanglement and the spooky action at distance: conservation of order/organization
- TFNR - Waves and vortices (simple particles) moving in the Field
- TFNR - No point particles, no singularities
- TFNR - Where is the electron?
- TFNR - The shape of particles and atoms is different from what we think and ever changing
Classification
- Topic id: t_ph_mixed_structures
- Belongs to the class: Interactions
- Has as instances:
- Belongs to the groups:
- Semantic Map: ekm|map=m_ph_dynamics&topic=t_ph_mixed_structures
- Semantic Map Test Version: ekmt|map=m_ph_dynamics&topic=t_ph_mixed_structures
