Dipoles: The exploration of light and electromagnetic waves as energy dipoles.
Electrons and Elemental Charge: The relationship between the an electron and the anti-charge at the quantum level.
Energy Measurement: Dual facets of energy: Amplitude and Frequency.
Emergence of μ0ε0 A hypothesis where ε0 and μ0 are properties of energy measured in temporal distance rather than spatial.
EC Quantum Link: An explanation of this new energy-time-space paradigm.
EM Coupling: Explore the detailed mechanics of electromagnetic energy coupling.
Energy Space: Self-organizing charges provides the foundational structure underlying the vacuum of space
Entanglement Limits The entanglement horizon: Coherence limits in a charge-admittance universe
Force: The glue that hold structures together.
Frequency: Find out the real manifestation of energy seen by Planck.
Lattice Formation: Explores the concept of a self-organizing electromagnetic lattice as the underlying structure of the vacuum.
Massless Energy Fields The phenomenon by which electromagnetic energy is concentrated through the alignment of magnetic fields.
New Gravity Based on Galileo’s observations and E=mc2, The mechanism that uses energy rather than mass becomes clear.
Noise: Electromagnetic noise represents inherent randomness in the electromagnetic field.
Origin Energy does not arise from mass or spacetime curvature but from structured dipole pairs formed at vacuum boundaries.
Origination: The first Energy dipoles spin their tale.
Permeability The aspects of magnetic flux related to the CA Theory.
Permittivity The aspects of charge related to the CA Theory.
Photons The building blocks of EM energy.
Photon Interaction: Delve into the intricate dynamics between a smaller charge dipole and the near field of a larger, lower-frequency dipole
Photoelectric Coupling:Explore the detailed mechanics of near field coupling.
Polarity: Polarity, a fundamental property of electromagnetic interactions
Quantum: Explore concepts such as quantization, quantum fields, and their implications within the framework of energy and impedance.
Quantum: Explore concepts such as quantization, quantum fields, and their implications within the framework of energy and impedance.
Quantum Fields: Explore concepts that within the ε0 μ0 lattice, quantum fields are dynamic fluctuations in the electromagnetic field.
Redshift: Understanding redshift by integrating Charge Admittance principles focusing on the microscopic interactions of energy dipoles.
Speed: The speed of Energy defines the velocity at which electromagnetic energy propagates through space.
Spectrum: The electromagnetic spectrum encompasses a diverse range of energy forms.
Spin: Spin introduces a quantum dimension to energy dynamics
Spreadsheet: Showing the energy spectrum from Planck energy level to light years.
Waves: Elemental carriers of EM energy, A critical reassessment of electromagnetic (EM) wave propagation.
Zero-Point Energy: EM energy is postulated to exhibit an average value of zero within a half-quantum, reflecting a zero-point energy level.