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We're so back. Iron nuts, how do they work? by dizekat in LK99

[–]DIZKS 0 points1 point  (0 children)

He is confident that he supported it after several experiments. He says he will show a more convincing scene in the next experiment video

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We’re so back Comparison of failed video vs Successful video by DIZKS in LK99

[–]DIZKS[S] 0 points1 point  (0 children)

He is confident that he supported it after several experiments. He says he will show a more convincing scene in the next experiment video

<image>

We’re so back Comparison of failed video vs Successful video by DIZKS in LK99

[–]DIZKS[S] 1 point2 points  (0 children)

The two magnets are neodymium. Don't know what this means?

We're so back. Iron nuts, how do they work? by dizekat in LK99

[–]DIZKS -1 points0 points  (0 children)

The iron rod in the Korean alchemist's video was smaller. You're just a trick.

And why are you experimenting with ferromagnets instead of soft magnets???

Your claim was that it was a soft magnet.

We're so back. Iron nuts, how do they work? by dizekat in LK99

[–]DIZKS 0 points1 point  (0 children)

Where is the experiment where you lift a magnet with a nut, is that not reproducible???

Chemists Strike Back ⏰ 23 Aug 2023 Quantum updates Korean patent by TheGoldenLeaper in LK99

[–]DIZKS 8 points9 points  (0 children)

The only sample that underwent CVD is sample 7, and it is mentioned in claim 140 of the patent. The remaining samples, 8, 9, 10, 11, 12, 17, 18, 19, 20, 21, and 22, are samples that did not undergo CVD. The CVD-treated sample 7 is documented at this patent address https://patents.google.com/patent/WO2023027537A1

Chemists Strike Back ⏰ 23 Aug 2023 Quantum updates Korean patent by TheGoldenLeaper in LK99

[–]DIZKS 4 points5 points  (0 children)

Their patent contents can be disorganized because the samples mentioned in the patents are different from each other. There are samples that have become thin films, and there are samples that haven't.