Jones, > > But when you look at the test reports, when JLN runs the device on > full DC power, he is able to input 1324 watts, which seemingly > couldn't happen if this power was all going to a filament with a > resistance higher than an ohm. >
1324 watts on continuous D.C. would require ~ 47 volts for a filament temperature of 2700 K (1.66 ohms @ 28 amps) ~ 45 volts at 2500 K (1.50 ohms @ 29.5 amps) ~39 volts at 2000 K (1.15 ohms @ 34 amps) and ~35 volts at 1700 K (0.95 ohms @ 38 amps ) etc., based on the posted filament diameter of 2.5E-4 meters x 0.1 meters length. Wasn't JLN locked in on a 12 volt 100 amp-hour battery? Besides I don't think the filament would last long at those constant currents. Frederick Jones Beene wrote: > > Fred, > > The main problem which is still lingering is the lack of direct > confirmation about the low power input, and the lack of a > schematic. This could relate to being 'holiday' season in Europe. > > But when you look at the test reports, when JLN runs the device on > full DC power, he is able to input 1324 watts, which seemingly > couldn't happen if this power was all going to a filament with a > resistance higher than an ohm. > > Plus even then (full DC) he is getting out only 70% of the input > as heat - where is the rest of the heat going? Conversely if > George Holz's theory about the power measurments were correct, > when he was using the 50 % duty in the early testing but yet the > OU was still strong even if you double the input power- or when he > went to 5% but was getting only 5-1 OU , then it should have been > 20-1 even then and not 5-1, so George's objection is also a little > shaky from that standpoint - if the reciprocal of the duty is the > measurement problem - the point being that ,there seems to be > little way to logically account for all this. > > I suspect that shortly, in a few weeks hopefully, independent > testing will either confirm his results, or relegate MAHG to the > category of yet another false alarm .... > > > > Summing up the MAHG parameters: > > 300 K fill pressure 80 Torr > > Filament: 2.5E-4 meters dia x 0.1 meters long > ~0.1 ohms @ 300 K ~1.13 ohms @ 2000 K > > Filament Power Aprox. 127 watts @ 2000 K (12 Volts D.C.) > Filament Power Aprox 6.4 watts @ 5% duty cycle. Temp < 2000 K ? > > Aprox. MAHG volume 500 cm^3 > Number of H2 molecules in chamber ~ 1.42E21 > H2 Molecular Radius 1.16E-10 meters > H2 Molecule Collision Mean Free Path (MFP) ~ 1.1E-6 Meters * > Aprox. temperature per H2 molecule @ 100 watts, 0.44 eV or 5,120 > Deg K > H2 Molecular Velocity @ 300 K ~ 1.58E3 meters per second > H2 Molecular Velocity @ 5,120 deg K ~ 6.52E3 meters per second > H2-H2 Molecular Collision Frequency @ 300 K ~ 1.43E9 per second > H2- H2 Molecular Collision Frequency @ 5,120 deg K ~ 6.0E9 per > second > > * MFP Based on CRC Handbook Data: 8.81E-5 Meters @ 1.0 Torr > for H2 > > Does the Casimir Force "track" the ZPE frequency? > > Frederick
