Wow, what the past 3 days have been!!! On 2011/12/28 I was able to catch on video camera a 402 SMD thermistor clearly showing a drop in temperature from a spark, all enclosed inside a small container. If we're Facebook friends, then three days ago you probably saw a discussion on my Facebook page announcing this along with a very short video that basically states my research has now change to high voltage, or to be more specific, the radiant spike.
If you can't stand Facebook, then wait for a YouTube video. Why on Earth someone's not on Facebook is beyond me. haha. Facebook is where you can find most of my activity.
The YouTube video will show the temperature decreasing. It will be show a spectrum graph of the two different types of sparks, exothermic (joule heating) and endothermic (cold electricity). The endothermic cold electricity spark has a relatively smooth spectrum, while the exothermic spark has a "lumpy" spectrum. The spectrum is only interesting, it's not evidence, but the sudden drop in temperature is evidence. The temperature was stable. The moment the spark struck, the temperature increases a lot, but within a matter of ~ 1/2 minute the chill effect slowly overtakes the joule heating and the temperature drops below ambient, it's starting temperature. That in itself is an interesting effect how the chill effect is more passive, long term, and eventually overcomes the joule heating.
The chill effect occurred on the first day of testing. At first I was using an ignition coil where the secondary ground is connected to the primary ground, which is a radiant no-no. So then I swapped coils, using a brand new ignition coil where the secondary was isolated. Upon the first spark I could immediately tell the difference in sound. The normal/exothermic spark has a snap sound to it. The endothermic spark has more of a sucking sound, a soother sound. In person the difference in spark is huge, but on camera it's not as noticeable. One problem is that I placed the camera a few inches away from the spark, so you mostly hear saturation. Another issue is found in the fact that even though it's recorded in my cameras highest recording mode of HD, there are only 30 data sound points for the entire spark, and the spark starts with a huge swing, and then quickly drops to a low oscillation. Such a broad range in audio level (from the immediate high swing to the low oscillation) requires an recording equipment that has a lot more bits than my $150 pocket camera. The best way will always be to just be there. Nothing beats in person.
Another interesting effect, which is actually one of the biggest diode & piezo effects, and also seen in my Orbo replications, TOR, and Hue devices. It's also the biggest problem with this technology. That effect is the disturbance and recovery effect. Yes, I am very sad to say that the day after the cold electricity was so clearly evident was gone! Actually I can tell by the sound of the spark that there's still a little bit of endothermic spark left. IMO, the spark always has both the exothermic and endothermic electricity. If there's more endothermic, then there's a chill effect. Otherwise it heats up. In fact last night I was noticing how the temperature would drop by significant amounts, then it would slowly come back to *almost* its starting temperature, and then after ~~ 1/2 minute more the endothermic effect would finally die out and the temperature would increase a bit. This duality was clearly seen on 2011/12/28 when the spark probes would immediately increase in temperature, stay there for about 1/2 minute, and then become cold.
The chill effect was not a temporary effect caused by some oscillations. Hehe, in years of conducting temperature experiments I'd love to see such an oscillation where the temperature goes below ambient. No, it's not a magical oscillation. I kept the temperature below ambient for over 9 minutes, in which case I merely stopped doing the sparks. This chill effect was repeated over and over and over for the later part of the entire day. I had one eyewitness who saw the temperature drop.
Again, the sad part is that this appears to be an effect that is *noticeable* in *undisturbed* materials. This coil was brand new, unused. After zapping it for ~ 1/2 day, the next day it was *disturbed*. That is such a classical diode & piezo effect. Countless times have I posted how the diode disturbance effect is very slow reacting, how I can beat the hell out of a low leakage diode, and it still produces DC voltage & current, but the next day the diode is dead.
Anyone who's interested in replicating this effect, then please by all means contact me on Facebook at -->
https://www.facebook.com/PaulMLowrance
I'm not hiding behind anything. There on Facebook, as friends, you can see photos of me, the hospital I was born in, lolz, my entire work history with photos of each company, photos of places I've lived, etc. etc. Nothing to hide. Nothing for sale!!! :-) The new ignition coil with the isolated secondary cost $9.12 on ebay with free S&H. I have no connections with the ebay seller. There's nothing special about this car ignition coil except for the isolated secondary. It's a coil for a 2007 Hyundai Tiburon GT Coupe 2-Door 2.7L 2656CC V6 GAS DOHC Naturally Aspirated. Also, you need an IGBT. For this I recommend part number SGS5N150UFTU, which is a 1500V, 10A, 50W, IGBT. For the chill experiment I used a SPDT mechanical switch that was normally connected to ground, but changed to +9V when held down. I used *THICK* rubber gloves and a piece of plastic, which was used to quickly momentarily strick the switch to turn on the IGBT, which produces current through the ignition coils primary. When the primary current is broken, there's a huge voltage spike on the secondary. For the spark gaps I used Aluminum foil, which was merely stuffed inside the car ignition coil holes and then bent forward so that both secondary polarities are pointed toward each other. I used a spark gap of ~~~ 3 millimeters (0.1 inches). Also, I had one of the secondaries connected to a ~ 3/4 inch (maybe 1/2") diameter solid metal rod that's ~ 6 feet in the ground. I have no idea if the Earth ground rod is required, or even if an isolated secondary coil is required. In all honesty, any *undisturbed* coil will probably work, as I think this effect is about expelling an undiscovered highly subtle matter that exists in all matter, but in varying amounts. I've gathered from my diode & piezo research that this subtle matter *slowly* reabsorbs in all matter, and as far as I can tell there appears to be no limit to how much it continues to absorb. Is this the mysterious Dark Matter that academic science has recently discovered exists in higher qualities in the outer reaches of Galaxies where the temperature is unbelievably low, where matter is least disturbed?
Another question that has me thinking, is the chill effect *required* for excess energy? Well, that's not to say the chill effect has to be noticeable. Perhaps a device can capture a small amount of such energy *per cycle*, but at sufficient frequencies could produce usable power. Lot of questions!!
Created on 2011-12-31 12:37:51 by Energy Probe
Misc, Science, Scientific hypothesises, Free energy, Free energy devices, Hue device, Orbital rigs, FE Misc devices, FE piezos, FE diodes, Paranormal, Etheric flow