I agree, the B field understanding might crack the case. And, if there is some form of transducer action connecting the B field to the current generating that field, positive feedback is perhaps possible. As we all know, positive feedback can amplify a signal to a great extent until a limit of some kind is encountered. It would be great if such a coupling is happening and techniques are found to enhance that behavior. I hope plenty of research goes into understanding that field.
Dave -----Original Message----- From: Terry Blanton <[email protected]> To: vortex-l <[email protected]> Sent: Sat, Jul 27, 2013 12:48 am Subject: Re: [Vo]:Defkalion/MFMP implications for electrolysis? On Sat, Jul 27, 2013 at 12:44 AM, David Roberson <[email protected]> wrote: I realize that superconductivity of the normal type is not too likely, but the relative magnitude of the currents required to generate the large magnetic fields suggests that resistive losses would be extreme if normal resistance values were present. That is the reason I am searching for a low loss path for the current to follow. Of course, this may not be reasonable. You know, with all those near free electrons and an extreme electric field and temp gradient that pairing could occur, especially at the pulse rate of the HV. Details of the B field measurement are a must for the sake of theory.
