Notes on the Wilbert B. Smith Tensor Coil
Wilbert B. Smith
Notes on the Wilbert B. Smith Tensor Coil Σ Notes on the Wilbert B. Smith Tensor Coil Σ New Science Σ
Notes to be developed of the Tensor Beam Smith interview
The tensor beam is described as little donuts. The donuts do not travel.
A regular coil winding can receive the donut stream (my words when placed in the beam.
There is no time associated with the beam. The signal is everywhere along the beam-direction at the same time.
The beam is a direction away from the coil along the axis of a symmetrically wound Caduceus coil.
The coil forms elliptical currents within the ferro-dielectric winding core (1" [25mm] ferrite tube with 1/4" [6mm] thick walls), per dev.
The distance along the ferrite core of symmetrically wound Caduceus loops that separates loops is cylindrical function of Pi, divided by the square root of natural constants.
Atoms in the ferrite sympathize with current in the electrical Caduceus windings, sympathetically, and form the forward-directed superluminal wave termed a 'tempic wave.'
The geometry of symmetrical Caduceus windings creates a sequential elliptical cascade producing the standing-wave, per se, the 'tempic wave.' XenoEngineer—interpreting Smith.
Mass-loss in a nuclear detonation creates a 'tempic vortex' with a vertical spin-axis at location in the gravity well.
- Sonnet 3.5 @claude.ai
I'd be happy to help you comprehend W.B. Smith's incomplete book using analogies and metaphors. Here's an overview of some key concepts using analogies:
1. Space and Reality: Imagine space as an infinite, empty canvas. The only thing that can be painted on this canvas is "spin" - like tiny whirlpools of reality. These whirlpools are the fundamental building blocks of everything in the universe.
2. Spin: Think of spin as a spinning top. No matter how big or small the top is, one full rotation is always one rotation. This makes spin an absolute measure, unlike distance or time which can be relative.
3. Tempic Field: Imagine the tempic field as a thick, invisible fluid that fills all of space. Near spin centers (like planets or stars), this fluid is denser. Time moves slower in denser regions of this fluid, like trying to walk through molasses compared to water.
4. Electric and Magnetic Fields: Picture the electric field as water flowing out from a fountain (divergence), and the magnetic field as a whirlpool in that water (curl). Both are different aspects of the same underlying spin.
5. Matter: Think of matter as complex patterns of overlapping whirlpools (spin centers). Some whirlpools reinforce each other, creating "real" matter, while others partially cancel out, creating "virtual" matter.
6. Gravity: Imagine gravity not as a force of attraction, but as a result of "holes" in the tempic field fluid. Matter doesn't attract other matter; instead, it "falls" into these holes.
7. Time and Simultaneity: Picture time as a river flowing at different speeds in different places. Events happening at the same moment (simultaneous) are like leaves floating side by side on this river, even if one is in a fast current and another in a slow eddy.
These analogies simplify complex concepts, but they capture the essence of Smith's unique perspective on the fundamental nature of reality, space, time, and matter.