Eric,
That is a good start at the procedure. Can you come up with some calculations to fill in the blanks? We need to have an idea of the total number of joules of energy contained within a powerful magnetic of known dimensions. Perhaps you could estimate one that would fit into the Yildiz motor along its axis. The length would be several inches but it is not clear how it is oriented. Do we have any views of the ones contained within the structure? What do you think? I recall it was stated that the force acting upon the motor rotors is quite large and pushing the fan blades would almost cut a guys finger. This suggests that a large amount of energy is available. Dave -----Original Message----- From: Eric Walker <[email protected]> To: vortex-l <[email protected]> Sent: Sun, Apr 14, 2013 9:30 pm Subject: Re: [Vo]:Yildiz motor in Geneva -- ran 5.5 hours then broke down On Sun, Apr 14, 2013 at 5:08 PM, David Roberson <[email protected]> wrote: The important questions that we need answered are how much actual energy is stored in the original magnet and how much can we borrow? Who wants to tackle these questions? I'll give it an attempt. The energy stored in the field of a magnet is equivalent to the energy needed to magnetize the magnet in the first place. Concretely, whatever process that is used to magnetize an ingot of iron in an industrial process will require electricity as an input, plus waste electricity that leaves the system as heat. I'm guessing the energy in the field is equivalent to the total energy less the waste energy. Eric
