http://www.youtube.com/watch?v=VYGSdUdONpw says "Addendum to our video "Steorn's Orbo Electromagnetic Interaction COP greater than 1""
here's "a" transcript.. sorry if i made mistakes, i dont understand what "aii" is.. ---- What we are going to do today is to address some of the concern made after the last experiment, which is to know whether or not a change in the inductance of the coils due to the magnets on the rotors, induced a changed, in the current, through the coils. this is a coil, and we are measuring its inductance with this LCR meter so i am connecting two kelvin probes to it. and as you can read, on the LCR meter, its inductance is 306millihenry - now i'm going to apply a strong magnetic field to the coil and as you can see, its inductance has dropped to, about fourty microhenry. -- next scene -- connecting the coil to a dc power supply. the yellow trace on the scope is the current, and the blue trace is the voltage across the coil, there's an offset on the current of 180 milliamps, so that we can zoom on the trace, and the scale is 5 milliamps per division, and the scale of the voltage is ten millivolts per division. and going to stop the oscilloscope, so we can read the values. there is 184milliamps and 14.25 millivolts across the coil. i'm applying a strong magnetic field to the coil, so i am changing the inductance of the coil. going to run… and stop the oscilloscope. now the values are 184.4milliamps and 14.26 millivolts. -- next scene -- to summarize: the inductance of the coil before the application of the permanent magnet, is 306 millihenry, and after the application of a permanent magnet its 40 microhenry the energy stored in the inductor is half ali (??) squared which before the application of the permanent magnet gives us 5.18 millijoules, and after the application of the permanent magnet, gives us 0.00068 millijoules, which is a variation of 99.9%. on the voltage and current, the voltage before the application of the PM is 14.25 millivolts, after application of PM it's 14.26 millivolts, which gives us a difference of 4.57 microvolts. on the current, the current before the application of PM is 184.1 milliamps, after application of PM it's 184.45 milliamps, gives us a difference of 355microamps. the variations in the voltage and current are insignificant and are within the rate of measurement accurancy and in no way can account for the significant change in the energy stored in the inductor.
