Skycollection's "Pentafilar Pancake" inductively coupled "Overunity Potential".

[skycollection]

Ok Coradelektro, i did the experiment and i used a resistor of 1K and the result was 6.9, I really do not know what this result means, i will appreciate very much if you explain me.
the input watts with the resistance of 1 k : 13.56 volts x 0.13 = 1.76 watts.

[conradelektro]

The idea is to use Ohm's law to calculate the Watts used by the resistor. The resistor transforms the Watts into heat.

Ohm`s law: V = I * R

In your case:  6.9 = I * 1000  -->   I = 6.9 / 1000 = 0.0069 Ampere

Watt = V * I = 6.9 * 0.0069 = 0.047

So, your output at the 1000 Ohm resistor is 47 Milliwatt or 0.047 Watt.

Since you have five outputs (5 LED-lamps or one could put five 1K resistor instead of the LED-lamps) the total output is 5 x 47 Milliwatt = 235 Milliwatt or 0.235 Watt.

Here is a on-line calculator which allows you to do the calculation by yourself (just fill in Voltage 6.9 and Resistor 1000 and click Calculate).

http://www.ohmslawcalculator.com/ohms-law-calculator

https://en.wikipedia.org/wiki/File:Ohm's_law_formula_wheel.JPG

One could argue, that your Multimeter does not measure true RMS Voltage (https://en.wikipedia.org/wiki/Root_mean_square), only peak to peak Voltage. But with this low output an error of even 50% would not matter much.

May be you have an other Multimeter which can measure lower AC Voltages (not 200 V AC, but may be 20 V AC). Repeat the measurement with that Multimeter. Attention: you have to measure alternating current (AC Voltage over the resistor), not direct current (not DC Voltage over the resistor). But there will only be a small difference. LEDs are very sensitive at low currents, they shine a little with only 2 Milliwatts. If your LED-lamps would be driven with the nominal current, they would hurt your eyes.

Greetings, Conrad

[skycollection]

Ok Conrad, i realy apreciate your time and thanks for the information, i will study the links and i will make more tests.

[conradelektro]

Ok Conrad, i realy apreciate your time and thanks for the information, i will study the links and i will make more tests.

Hi Skycollection:

You could replace all five LED-Lamps with a 1K resistor and you do the measurement for all five resistors. You should get similar Voltages over each 1K resistor around 6.9 V AC.

This will show that the output from each of the five coils is similar and more or less independent from the other coils.

The normal digital Multi-meters do a pretty good true RMS Voltage measurement around 50 to 60 Hz. And your output should be between 30 Hz and 50 Hz (which is about 1800 to 3000 rpm = revolutions per minute of your motor). And the output should be pretty much a sine wave. If you know someone with an oscilloscope, you could also measure the AC Voltage over the 1K resistor like you do with your multimeter. Most digital storage oscilloscopes will display (calculate) the true RMS Voltage. The difference between a very exact measurement with an oscilloscope and your multimeter will not be great (may be in the order of 5% to 20%).

Your motor-generators are very nicely built. Your input measurement is already pretty good and the output measurement is well under way.

Very good car alternators have an efficiency of about 80%. Unfortunately it is very unlikely that you can reach such an efficiency with your motor-generators because you can not optimise your materials like the designers in a car alternator factory. You would need a very small and precise gap between rotor an coils, very good magnets and specially designed coils and core material.

https://en.wikipedia.org/wiki/Alternator_%28automotive%29#Field_regulation

Nowadays one uses very sophisticated design software http://operafea.com/motor-design-software/?gclid=CLH_mO3D7ckCFRLhGwodnS8O7w

Greetings, Conrad

[skycollection]

Thanks Conrad, I think it's worth making a new video with the correct measurements of each group of pancake coils with a resistance of 1K, and thanks for your commentaries.