Technological production of 'Ball Lightning'
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Technological production of 'Ball Lightning'
vs natural formation
I will consider some examples of claimed ball lightning that is technologically produced and relate that to examples of natural formation and discuss other important observations.
It is advised to watch from this point in a previous presentation.
Also, this is a patent free way to produce a ball-lightning like structure
More insight on the Technological production of ‘Ball lightning‘
I will review the below paper (supported in part by the US Air Force Office of Scientific Research) from 1995 in light of MFMPs research and provide further reasoned guidance for experimentalists.
"Ball Lightning: What Nature is Trying to Tell the Plasma Research Community"
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From this paper
Collision Cross Sections in Gaseous Electronics Part I: What Do They Mean?
Raju, G. G. (2006). Feature article - Collision cross sections in gaseous electronics part I: what do they mean? IEEE Electrical Insulation Magazine, 22(4), 5–23. doi:10.1109/mei.2006.1678354
I would suggest the use of NO (Nitric Oxide) or CF4 (Tetrafluoromethane). The latter because it also has F which is mono-isotopic and in my view is an important LENR fuel. Here are the respective charts:
Technological production of 'Ball Lightning'
Thanks Bob for reviewing this in detail! I honestly didnt review the footage in slow motion until just before you presented it so i did not know it had as much good stuff in it as it did!
I was using a high ripple dc output powersupply to run the rotary gap in series with the air blown gap, cap bank is my homemade MMC with many of those maroon coloured cbb81 caps in series/parallel. The powersupply is very dangerous as it uses 4x MOTs in a parallel/series config with pfc caps across the primaries to reduce the line current. I always ensure i physically unplug the supply feed before going near it as its enough to kill you quick if you touch it live. When i build this Tesla inspired equipment i try to think that if i was Tesla in this time which of the new materials and old would he choose that i have on hand. Will try and replicate this with better filming when i have it reassembled. My voyage led me into BL instead of NiH reactors for various reasons, seems like a different path to the same place now…..
ref/ travelling through glass....I think the tempering process u looked at was more for smaller,one off pieces,lab equipment etc.. However, for larger panes,skyscrapers etc ,predominantly laminated glass would be used,(eg 4 x 6 mm 'float' glass binded with resin), so you would still have lots of impedence change and theres also the original tin,tin dioxides, coating on one side of glass from original manufacture still present? From late 70,80s "Low E" and similar energy efficent glasses started use in large projects, so this glass would have had silver or similar coating on inside of pane,as well as 'float' process residue...