Solar Systems as Electrical Transformers - Part 4
Other Solar Systems as Electrical Transformers - Part 4
© 2019 Michael Clarage
(See posts on Solar Systems as Center Core Electrical Transformers 1,2, 3 for full description.)
Build the center-coil electrical transformer for Trappist-1 and Kepler-20. See if we get different resonant frequencies than were found for our Solar System. My students Rahul Harve and Rianna Jackson did the calculations. Trappist-1 was built in Bath UK this July 2019. Thanks again to Lucy & Noel for making this possible.
Summary
The entire Trappist-1 system is only a little larger than Jupiter+its moons, it would fit easily inside the orbit of Mercury. I built our system and Trappist-1 both on a 8ft x 8ft area, in essence magnifying Trappist-1 relative to our system.
On such a 8ft x 8ft scale, our solar system and Trappist-1 have different resonant frequencies. The main frequencies of our system are 41, 82, 113 kHz. The first few for Trappist-1 are 180, 265, 330 kHz.
Each planet coil has a different resonant frequency when alone than when all the coils are present. When all coils are present, they all agree and all resonate together at several frequencies. These are not the same frequencies that each individual coil resonates when alone.
Next steps
Build Kepler-20 system
examine the MHz range. I found this time that Trappist-1 model had resonances up in the MHz range, but did not have time to explore.
Trappist-1
Trappist-1 model on 8'x8' table.
The shed
To build Trappist-1, make the outer most planet 4 turns of wire, with radius of 120 cm. I used two different Suns: 20 coils 2cm diameter; 15 coils 6cm diameter. This did not change the resonances.
Resonances with all coils together.
It is clear that the inner planets cannot resonate at the higher frequencies. This is further reason to look next time in the MHz ranges.
Resonances with just one coil at a time,
I did not have time to measure planets 5 & 6. The peaks were clear, but wide. The peak frequency increased with the larger orbits. At first this seemed backwards. But maybe since the inner coils actually have longer length of wire they will resonate at lower frequencies. Either way, it is clear that once the coils are all together they each shift their resonant frequency away from their "lonely" value and towards a value that works for all of them at once. In other words, when they are all together they change their resonance so that they can all resonate together.
plot of response of each planet coil separately
Kepler-20
I did not have time to build Kepler-20. Maybe someone else wants to build it?
To build Kepler-20, 330 meters of wire
Patterns in time and space between the planets.
This is an analysis method pioneered by John Martineau, which I found in the book entitled ‘A Little Book of Coincidence’. The method is to plot the displacement vector between two planets. Since the planets are spaced with geometrically increasing distances from the star, and since Kepler's Laws apply, very beautiful patterns emerge. I don't think anyone yet understands the meaning of this - though it seems like strong evidence that what we see as planet-points orbiting a star are really cross sections of a larger shape...
like when you cut a snail shell in half the long way, and you see a geometric spiral. Now imagine we take another cross section, and traverse the spiral by a line. Those points where this new line intersects the spiral are like seeing the planets of points. Those points on our new line will increase from the center in a geometric proportion. For our solar system each planet is about 2 times further away then the previous. That is to say, when look at the planets, we see points, and we are looking only at a cross section of a cross section of the full solar systems. When we plot the dances between two planets, we see beautiful patterns revealed, but we are not yet seeing the whole solar system.
Here is for Trappist-1 (done by my student Neha Thurai)
And the patterns for Kepler-20. Notable that they are not as "stable" as Trappist-1
For comparison, the 2-planet patterns in our own Solar System