well wasnt one of the points that he could demonstrate lighting of bulbs, underwater. and that the lit bulbs wouldnt get cold at all. anything to do with "cold electricity" perchance? ;)
On 27/02/07, [EMAIL PROTECTED] <[EMAIL PROTECTED]> wrote:
What's interesting is the suggestion that the cores get cold. That's really the only effect I would be interested in regards to this experiment. Paul Lowrance Mike Carrell wrote: > A description such as this lacks much essential information necessary to > distinguish it from a 'mundane' electrical stunt. It's hardly wortth > speculating about. A lead-acid battery can supply very large surge > currents [as in starting a car] and with proper windings electromagnets > can strongly repel and if left connected would get quite hot. Capacitors > can be charged in parallel and discharged in series to provide > extraordinary surge power for rail guns and electromagnetic forming. AC > fields can configured to attract non-magnetic conductors and even > insulators. Looks magical until you think deeply. > > Mike Carrell > > ----- Original Message ----- From: <[EMAIL PROTECTED]> > To: <vortex-l@eskimo.com> > Sent: Monday, February 26, 2007 2:30 PM > Subject: [Vo]: E.V. Gray experiment > > >> There's a specific experiment that the late E.V. Gray performed that >> is fascinating --> >> >> >> Quote, >> --- >> In the workshop, a 6-volt car battery rested on a table. Lead wires >> ran from the battery to a series of capacitors which are the key to >> Gray's discovery. The complete system was wired to two electromagnets, >> each weighing a pound and a quarter. >> >> The first demonstration proved that Gray was using a totally different >> form of electrical current --- a powerful but "cold" form of the energy. >> >> As the test started, Gray said: "Now if you tried to charge those two >> magnets with juice from the battery and make them do what I'm going to >> make them do, you would drain the battery in 30 minutes and the >> magnets would get extremely hot." >> >> Fritz Lens activated the battery. A voltmeter indicated 3,000 volts. >> Gray threw a switch and there was a loud popping noise. The top magnet >> flew off with a powerful force. Richard Hackenberger caught it with >> his bare hands. >> >> What had happened was that gray had used a totally different form of >> electrical current --- a "cold" form of energy. The fact that >> Hackenberger caught the magnet and was not burned was evidence enough >> of that. >> --- >> >> >> Does anyone know how to replicate this specific E.V. Gray experiment? >> Personally I would disagree this is a new form of "cold" electricity. >> I firmly believe the energy comes from the magnetic materials ambient >> temperature. >> >> Are there any photos of this experiment? What type of magnetic >> material were the electromagnets made of? Was is merely capacitors >> discharging across the electromagnets or was there a circuit? How >> were the electromagnets situated? >> >> >> Regards, >> Paul Lowrance
