Contents |
| Introduction |
| Philosophy and Approach |
| Terms and Definitions |
| The Tools |
| Ohm's Law |
| New Wave Model |
| 1 Dimensional Simulations |
| 2 Dimensional Model |
| 2 Dimensional Simulations |
| 3 Dimensional Simulations |
| Missing Aether |
| wave particle duality |
| Nonlinear Models |
| 1 Dimensional Simulations |
| 2 Dimensional Simulations |
| 3 Dimensional Simulations |
| Unified forces |
| Gravity |
| Strong nuclear force |
| Week nuclear force |
| electromagnetism |
| light |
| time and relativity |
| Big bang |
2D Square Wave Because 2 dimensional space has a lower transfer gain it shreds complex waveforms. Higher frequencies travel slow. Waveform amplitude varies with the inverse of the distance, the further from the source the small the wave. This gives square waves a strange 'tilted' appearance.
2D Pulse Transfer This is like a low frequency square wave and I included it just to demonstrate that these simulations are frequency independent.
2D Impedance Mismatch Demonstrating the reflected and transferred waves due to impedance change.
2D Simple Race Track Follow a waveform over a long distance (2000 parcels).
2D Wave Trap Balancing gain and impedance to slow a wave.
Another 2D Wave Trap What would happen if the wave trap was a rectangle in the center of the field?
Yet another 2D Wave Trap. This time the trap is a circle in the center of the field.