Recipe for a Cosmos

Imagine that nature emerges from ample pairs of immutable Planck radius spherical particles, the electrino and the positrino, which are equal yet oppositely charged. These are the only carriers of energy, in electromagnetic and kinetic form. The are located in an infinite 3D Euclidean space (non curvy) and observe classical mechanics and Maxwell’s equations. 𝗡𝗣𝗤𝗚 explores this recipe for nature and how it emerges as a narrative and theory that is compatible with GR, QM, modified ΛCDM, yet superior in ability to explain the universe and resolve open problems.
For 𝗡𝗣𝗤𝗚 basics see: Idealized Neoclassical Model and the NPQG Glosssary.

Physical Ingredients

  • One empty 3D Euclidean space (a void).
  • Many electrino & positrino particle pairs.
  • Ample energy carried by electrinos and positrinos.


The 3D void will be the vessel for your cosmos. It must be large enough to contain the cosmos. An infinite void is preferable if available. The void is featureless other than being 3D and Euclidean. Do not get duped into one that curves, stretches, or has any fancy geometry.

The electrino and positrino particles must be equal and opposite in all characteristics: charge (1/6 magnitude), spin, etc. You’ll need quite a few. Perhaps 10^50 pairs per cubic meter of cosmos more or less.

Ensure your electrino / positrino pairs have a variety of energies, with an average of several degrees Kelvin.

Add the energetic pairs to the 3D vessel.

Require that all interaction follow Maxwell’s equations.

Eventually a recycling cosmos will emerge with characteristics similar to your existing cosmos.

Chef’s notes

This recipe is guaranteed to be a success since all the physics needed is natural to the ingredients. Furthermore, emergent behavior handles all the combining, mixing, baking, transformation, cooling, and recycling.

J Mark Morris : San Diego : California : June 16, 2019 : v1

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