Synthesis of Electricity from Caps and Coils

In homage to Eric Dollard's statement during one of his earlier lectures, either History and Theory of Electricity or Origin of Energy Synthesis - I don't recall, in which he says that mere capacitors and coils can be used to synthesize electricity, and since I'm still endeavoring to get a theoretical handle on the LMD analog computer as an amplifier by simulating - rather than building - the following simulations are provided, below, using two daisy-chained LMDs exhibiting various amounts of resistance (impedance) at their inductive loads of one Henry, each ...

Simulated in Java -- Amperage vs Voltage is over Two Million to One -- load the text from the text below, or use this alternate Java Simulator.

Simulated in JavaScript -- Amperage vs Voltage is over Five Thousand to one.

I like this simulation since it uses twelve capacitors in its LMD modules hinting at a parallelism with the Tesla story/myth of a 1931 Pierce-Arrow conversion into an A/C motored EV which had used twelve (radio) tubes may have, instead, been twelve vacuum tube capacitors?

PS--Impedance may be reduced by adding a shunt resistor (of one Ohm, in this case) between the inductive loads. Shorting the two pairs of loads to each other also helps.

=============EVERYTHING.BELOW.THIS.LINE.IS.SIMULATOR.CODE=============

$ 1 5.0E-6 19.867427341514983 47 5.0 30
c 688 432 656 432 0 10.0 0.0
c 688 480 656 480 0 10.0 0.0
c 608 432 576 432 0 10.0 0.0
c 608 480 576 480 0 10.0 0.0
w 528 432 512 432 0
w 528 480 512 480 0
T 528 432 576 480 0 1.0 1.0 0.0 0.0 0.999
T 608 432 656 480 0 1.0 1.0 0.0 0.0 0.999
T 688 432 736 480 0 1.0 1.0 0.0 0.0 0.999
x 730 584 818 587 4 12 20180820-1400
l 480 480 480 432 0 1.0 0.0
R 672 704 672 672 0 0 40.0 1.0 0.0 0.0 0.5
w 720 640 720 720 0
l 768 432 768 480 0 1.0 0.0
w 768 480 736 480 0
w 768 432 736 432 0
w 608 432 608 368 0
c 576 368 608 368 0 1.0 0.0
159 576 368 576 432 0 20.0 1.0E10
w 448 400 560 400 0
R 752 368 784 368 0 0 40.0 2.5 0.0 0.0 0.5
159 688 432 688 368 0 20.0 1.0E10
c 656 368 688 368 0 1.0 0.0
w 656 432 656 368 0
w 704 400 704 336 0
w 704 272 560 272 0
w 560 336 560 400 0
c 656 544 688 544 0 1.0 0.0
159 688 544 688 480 0 20.0 1.0E10
w 656 544 656 480 0
w 608 544 608 480 0
159 576 480 576 544 0 20.0 1.0E10
c 576 544 608 544 0 1.0 0.0
w 704 512 816 512 0
w 816 512 816 400 0
w 448 400 448 512 0
w 448 512 560 512 0
w 656 608 656 640 0
w 816 400 720 400 0
w 720 640 656 640 0
S 592 704 560 704 0 0 true 1
S 672 704 704 704 0 0 true 1
c 672 704 592 704 0 1.0E-6 0.0
l 736 480 736 432 0 1.0 0.0
l 512 432 512 480 0 1.0 0.0
w 480 432 512 432 0
w 480 480 512 480 0
w 720 352 720 400 0
w 720 400 704 400 0
w 608 608 608 656 0
w 608 656 560 656 0
w 560 656 560 688 0
w 720 720 704 720 0
x 444 641 592 644 4 12 http://is.gd/twolmdsshorted
w 656 368 656 304 0
c 656 304 688 304 0 1.0 0.0
159 688 368 688 304 0 20.0 1.0E10
159 576 304 576 368 0 20.0 1.0E10
c 576 304 608 304 0 1.0 0.0
w 608 368 608 304 0
w 560 272 560 336 0
w 704 272 704 336 0
w 656 608 656 544 0
159 688 608 688 544 0 20.0 1.0E10
c 656 608 688 608 0 1.0 0.0
c 576 608 608 608 0 1.0 0.0
159 576 544 576 608 0 20.0 1.0E10
w 608 608 608 544 0
w 704 512 704 576 0
w 560 512 560 576 0
w 768 432 832 432 0
w 832 432 832 288 0
w 800 256 464 256 0
w 432 272 432 480 0
w 432 480 480 480 0
w 480 432 480 240 0
w 480 240 848 240 0
w 848 272 848 464 0
w 816 480 768 480 0
S 464 256 432 256 0 1 false 2
S 816 480 848 480 0 1 false 2
S 720 352 752 352 0 1 false 2
x 464 223 809 226 4 12 and_10F-1F-1F_Capacitors_simulated_in_Java_vs_JavaScript
r 800 272 848 272 0 1.0
w 800 288 832 288 0
w 848 240 848 272 0
w 800 256 800 272 0
w 800 272 800 288 0
x 446 204 834 207 4 12 425_nano_vs_182_micro_Ohms_Impedance_from_1H_Transformers
o 10 64 0 289 5.0 0.1 0 -1
o 44 64 0 289 5.0 0.1 1 -1
o 43 64 0 290 5.0 0.1 2 -1