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how big is the test tube?
People were documenting superheating and supercooling before they knew about microwaves.
Quote from: hamdani yusuf on 02/04/2022 16:00:07how big is the test tube?Do you know what a test tube is?
Quote from: Bored chemist on 02/04/2022 17:13:37Quote from: hamdani yusuf on 02/04/2022 16:00:07how big is the test tube?Do you know what a test tube is?Have you never worked with different sized test tubes?
Quote from: Bored chemist on 02/04/2022 17:13:06People were documenting superheating and supercooling before they knew about microwaves.Can you share the link? A video would be better.
Yes, and they are all pretty close to the same size.
Do you know what a boiling tube is?What about a micro tube?
So... you want a video from before they had microwaves.How many pre WWII video recorders do you think there were ?
https://en.wikipedia.org/wiki/Boiling_chipHere's a reference from 1930.https://archive.org/details/sim_journal-of-biological-chemistry_1930_88_contents/page/78/mode/2up?q=antibumpingWhy don't you just accept reality?
The superheating is affected by linear polarization.
Quote from: hamdani yusuf on 03/04/2022 03:46:10The superheating is affected by linear polarization.Interesting claim.You don't have adequate evidence.
How are you polarising the microwaves?
Are you taking account of the fact that the magnetron produces a polarised beam?
Is it linearly polarized? What's the axis of polarization?
Quote from: hamdani yusuf on 03/04/2022 14:18:02Is it linearly polarized? What's the axis of polarization?I believe so and along the axis of the output coupling connector, I think.But don't you think you should have checked that?
So, the effect you are looking for might be caused by the rotation of the dish?