I’ll update the slides with those details but in the mean time - air gap roughly 1.0 +/- 0.3mm. Wire 1.2mm dia. Zinc coated mild steel. Al adhesive tape dusted with FeTi wrapped around the cathode wire. Outer wrapping was PTFE tape.
Welder puts out a pulsed waveform 180A at up to 70V, though I didnt have the scope hooked up unfortunately…
I’ll update the slides with those details but in the mean time - air gap roughly 1.0 +/- 0.3mm. Wire 1.2mm dia. Zinc coated mild steel. Al adhesive tape dusted with FeTi wrapped around the cathode wire. Outer wrapping was PTFE tape.
Welder puts out a pulsed waveform 180A at up to 70V, though I didnt have the scope hooked up unfortunately.
Only one witness plate was wetted, it was the one that remained intact. PTFE would be a good source of H though for the ones that weren’t wetted. The intact plate shows the signature double indent a’la ULTRA.
Intend to measure the direct TDM of the MHD structure making these. Big enough bagel receiver fitting around the BL area, it will absolutely couple. I’ve got some interesting signal out of a lower power hv arc discharge doing exactly this. Happy to share, to get discussion flowing.
Hi Chris, yes, PTFE is great, but it contains no H. It does have C and F, and one reason I believe it worked so well in Ohmasa Gas + Ti vs PTFE is that F is a single isotope and one of the highest spin isotopes. We saw Alpha conjugate nuclei of F in the EVO track in that experiment.
The mark is essentially identical to the one produced on the 10 Yen coin by Ohmasa Gas, - even more so the fractal, orthogonal smaller structure which had 2xO > S in "Snowballs on Cobblestones"
Hi Bob, the disk plate is tungsten, I’ll update the linked slide with a more comprehensive set of electrode material combinations and highlight if the witness plate was wetted or not. The SS electrode is significantly more energetic. I tried capturing the TDM response on a W anode that fit into a 2-level Bagel, only captured the pre-BL signal which is just as interesting in my opinion. Will add to the slides as well.
In Australia. I'll start wearing some gloves when I'm handling the next few so I don't get my grubby fingers all over them. Just let me know where to post them, I think you have my email?
Will have it in the mail in the morning. I wanted to include the a bismuth bead sample, so I reproduced my earlier Adamenko-style experiment and it appears that I disappeared some bismuth??!! I also exploded one so have included that in the samples, marked Bi Bead. Vid link in the ppt.
I’ll update the slides with those details but in the mean time - air gap roughly 1.0 +/- 0.3mm. Wire 1.2mm dia. Zinc coated mild steel. Al adhesive tape dusted with FeTi wrapped around the cathode wire. Outer wrapping was PTFE tape.
Welder puts out a pulsed waveform 180A at up to 70V, though I didnt have the scope hooked up unfortunately.
Only one witness plate was wetted, it was the one that remained intact. PTFE would be a good source of H though for the ones that weren’t wetted. The intact plate shows the signature double indent a’la ULTRA.
Intend to measure the direct TDM of the MHD structure making these. Big enough bagel receiver fitting around the BL area, it will absolutely couple. I’ve got some interesting signal out of a lower power hv arc discharge doing exactly this. Happy to share, to get discussion flowing.
Hi Chris, yes, PTFE is great, but it contains no H. It does have C and F, and one reason I believe it worked so well in Ohmasa Gas + Ti vs PTFE is that F is a single isotope and one of the highest spin isotopes. We saw Alpha conjugate nuclei of F in the EVO track in that experiment.
The mark is essentially identical to the one produced on the 10 Yen coin by Ohmasa Gas, - even more so the fractal, orthogonal smaller structure which had 2xO > S in "Snowballs on Cobblestones"
https://youtu.be/3h3Gk4vatS8
Top left in this shot
https://youtu.be/gux490Oywoo?t=277
Need to work on bringing the details together to enable replication attempts. All details you can think of
Brand and model of welder
Source of witness plates
Source / brand of PTFE
Pulse rate
etc.
Sorry - I meant no H - corrected
Hi Chris, can you confirm the disk plate material?
Can you confirm if and when you were wetting the electrode and/or the disk plate?
Bob
Hi Bob, the disk plate is tungsten, I’ll update the linked slide with a more comprehensive set of electrode material combinations and highlight if the witness plate was wetted or not. The SS electrode is significantly more energetic. I tried capturing the TDM response on a W anode that fit into a 2-level Bagel, only captured the pre-BL signal which is just as interesting in my opinion. Will add to the slides as well.
Thanks, that is great. I think I will make a page for this work.
Sounds good! Slides are updated ;) https://docs.google.com/presentation/d/1ed9k6R46WdtVcNr-3l-ptP0vhHp_EO4l/edit?usp=sharing&ouid=103956475152304938366&rtpof=true&sd=true
Slides look good. Will properly review tomorrow
Caught the maker-breaker pretzel on TDM scope! - spoiler alert: it's a chaotic signal. Slides up to date.
Awesome.
Where are you based? I'd like to take a look (SEM/EDX) at some of those targets.
In Australia. I'll start wearing some gloves when I'm handling the next few so I don't get my grubby fingers all over them. Just let me know where to post them, I think you have my email?
Should do.
If you can get them to California by the 28th, I can take a look at them.
Will have it in the mail in the morning. I wanted to include the a bismuth bead sample, so I reproduced my earlier Adamenko-style experiment and it appears that I disappeared some bismuth??!! I also exploded one so have included that in the samples, marked Bi Bead. Vid link in the ppt.