This Video is a Follow-up Video on my Replication of the Thane C Heins Regenerative Acceleration Generator. In this Video I explain what the difference is between loading my generator coil and between shorting it. And when the desired Regenerative Acceleration Effect comes into play for both of these options. The Bottom Line of this Experiment is: The Higher the Ohmic Load Resistance will be, The Higher the Generator Frequency needs to be. So th…
This Quick Update shows that the Regenerative Acceleration Effect also is taking place for normal Resistive Loads. In This case I have used a 15W/240V Rated Incandescent Light Bulb as a Load. Which in this demo runs on approximately 2W on 88Volts. We can get the Resistance of this Light Bulb by: P/U=I so: 15W/240V=0.0625AR=U/I=240V/0.0625=3840 Ohms So to be more precise: The Power P going to this Incandescent Light Bulb in this Experiment is: P=…
This Video demonstrates how we can calculate the desired Delayed Lenz Effect, and shows that the experimental results of my previous video about: the Difference between Loading and Shorting the Regenerative Acceleration Generator coil can be explained and can be calculated. So than again high impedance is really important. And the Lenz Delay can be calculated by L/R If you want to know more about this technology, Please go to Thane C Heins it�…
This Time I have used a Normal MOT (Microwave Oven Transformer) transformer, to show that the Thane C Heins Regenerative Generator Effect (or Delayed Lenz Effect) can also take place in normal Off-The-Shelf components. In this video you can see (just as in my previous video) that at 200 Hz the power factor (phase angle between voltage and current) decreases to less than 90 degrees. And in the second part you can see that in case of driving this …
In this video you can see that it is even possible to use the Thane C Heins Regenerative Acceleration Generator effect without any moving parts, so in this case in a transformer. What is important in this setup is that this transformer isn’t like a normal transformer, no in this setup it is a transformer with a low impedance / high current primary coil and with a very high impedance secondary coil. What is interesting to see is that this t…
In this follow up video about the regenerative generator effect taking place inside the high impedance secondary coil transformer video, you can see that at 200 Hz the power factor (phase angle between voltage and current) decreases to less than 90 degrees. And in the second part you can see that in case of driving this transformer at 950 Hz we see that the opposite is taking place. In this case we can see that the phase angle becomes even more …
Delayed Lenz / Negative Lenz Effect, the Way to Overunity: This is my Working Replication of the Thane C Heins Regenerative Accelerating Generator Experiment. In my experiment I am able to show the same effect. There are only two parameters very important to replicate this setup, and that is that the generator frequency must be high, and the generator coil it’s impedance must be high. For the Theoretical Explanation concerning this effect …
…nce drops to the DC resistance of the coil and the self induced voltage is at maximum. The high (internally stored) voltage is then able to be dissipated through the small DC resistance of the coil – producing a maximum delayed magnetic field which now pushes away on the already receding magnet while attracting the next opposite magnet pole on the rotor. If the Self Accelerating coil is engaged at a low rotor speed where current can flow in…
4 September 2011 at 17:08 · Comment
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