Video 1: “particle in gradient slope80 bjd 1e” — Simulating Model G neutral particle in a G gradient with Mathematica. Gradient = -1/80
Video 2: “particle in gradient slope50 bjd 1c” — Simulating Model G neutral particle in a G gradient with Mathematica. Gradient = -1/50
Video 3: “particle in gradient slope30 bjd 1h” — Simulating Model G neutral particle in a G gradient with Mathematica. Gradient = -1/30
Video 4: “particle in gradient slope20 bjd 1f” — Simulating Model G neutral particle in a G gradient with Mathematica. Gradient = -1/20
Video 5: “particle in gradient slope10 bjd 1g” — Simulating Model G neutral particle in a G gradient with Mathematica. Gradient = -1/10
Note that in videos 1 & 2, asymmetries are created. If this behavior is extended to three dimensions, this could potentially model particle spin, angular momentum, and other Vortical Ether behaviors observed in the real world.