RE: [Vo]:Re: The good, the bad and the ugly

From: Bob Cook Ø You indicated that ferromagnetic nickel is better for induction devices—i.e., in the part which is heated. Why? Well, the obvious reason is that Ni is known for 25 years to interact with hydrogen to produce excess heat and it could be further activated by magnetic wav

[Vo]:Re: The good, the bad and the ugly

Jones-- You indicated that ferromagnetic nickel is better for induction devices—i.e., in the part which is heated. Why? It’s the driving (variable) magnetic field that induces eddy currents in the heated parts (per some of the conversation heretofore in this thread) that is important. It wo

[Vo]:Re: The good, the bad and the ugly

Bob-- Design a vacuum annular space as an insulator and add He to improve heat conduction as required to cool the system, i.e., a variable insulator. Bob Cook From: Bob Higgins Sent: Sunday, June 14, 2015 8:13 AM To: vortex-l@eskimo.com Subject: Re: [Vo]:The good, the bad and the ugly I agre

[Vo]:Re: The good, the bad and the ugly

The good, the bad and the uglyHarvey-- I was excited to see your input to VORTEX-l along with Jones. Thanks. What is you take on the high-frequency-input and size of the material being stimulated. Do normal rules for TRIAC power supplies apply? Bob Cook From: Jones Beene Sent: Sunday, June

[Vo]:Re: The good, the bad and the ugly

Dave, Jones, etal.-- I am not sure I understand the mechanism of energy transfer at the kilo hertz frequency when the geometry is not so straight forward. Normally an alternating magnetic field creates an alternating electric field at the exact location (space coordinate going to zero in the