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Entanglement of identical energy

Entanglement of non-identical energy

Entanglement of energy with different rates of e-m interaction

Entangled particles at different energy levels

Interchanging identities

Disentanglement

Frames of reference

Double-slit experiment - overview

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Properties of entangled particles

All unidirectional energy consists of electromagnetic (e-m) interactions.  On the other hand, the inherent energy of 123d space consists of non-electromagnetic basic units of 1-D bidirectional energy in constant random motion and distribution relative to each other, resulting in a dynamic equilibrium energy system (i.e., 123d space in a state of optimal directional balance).

1-D electromagnetic interactions are massless. All mass possesses a gravitational energy gradient (or gravitational energy gradients formed about an energy system result in mass). The potential energy of 123d space consists of energy "tied up" in the basic 1-D units of 123d space, and its kinetic energy consists of the random motion of the basic 1-D units of 123d space relative to each other. A gravitational energy gradient consists of varying proportions of potential to kinetic energy of 123d space (greater ratio of potential to kinetic energy) inward toward a body of mass. So gravitational energy consists of gradients occupying 2-D or 3-D space, but not 1-D space.

When e-m energy systems of the same dimensionality (1-D, 2-D, or 3-D) are formed together as pairs, they are entangled, and have the following properties.

Entangled energy created as a pair possess ....

.... opposing e-m directionality, system spin, time, and any other unidirectional properties.

.... alternating e-m directionality with every e-m interaction.

.... interchanging identities with every e-m interaction.

.... the same rate of e-m interaction, existing at the same or corresponding energy levels (e.g., in orbitals and within the nucleus) - although entangled particles may possess different rates of e-m interaction in some cases.

.... the same frame of reference, each seeing no time between them, and therefore no additional space between them from the instant of their creation;  they see each other as existing next to each other while all other e-m frames of reference see time and space between them as acting “normally,” so that they may be seen by all other e-m energy systems (including us) as existing at great distances from each other.

 

To explore traditional views on entanglement, see "Quantum entanglement" on Wikipedia.