Diamagnetic levitation between diamagnetic plates
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- Опубликовано: 2 окт 2024
- Diamagnetic levitation between diamagnetic plates of pyrolytic carbon and bismuth.
Levitació diamagnètica entre plaques de carbó pirolític i bismut.
Levitación diamagnética entre placas de carbón pirolítico y bismuto
Pyrolytic graphite details:
- 1 block of pyrolytic graphite of 1inch x 1inch x 5mm (cut in two plates)
Details of the neodimium magnets:
- A little magnet of 2.5mm x 5mm x 5mm aprox.
- Cubic magnet of 10 x 10 x 10 mm
- Magnets on top are 1 inch x 1 inch x 5 mm
The one dislike comes from gravity.
Nice design
can you reply , what happens when a piece of magnet (small) is put over a large pyrolytic carbon ?
does it repel ? (without upper magnet) ?
reply , thanks
whats the name of that song playing?
Just what I like so see Great work did you get the Pyrolytic Graphite from
AVA Magnetic Levitation ?
Have you tried using large ferrite magnets for the lifter ?
Why does the magnet float higher when it is between plates 1:12, rather than on-top of 2 plates 0:20 ?
Can someone explain?
Shouldn't the top plate be pushing it downwards - thereby making it float lower?
Only just found a message to look great work very tidy setups and good lev gaps also.
What is the use of diamagnetic levitation in antigravity?
Gravity will always be there. You have to use other forces to fight gravity's force. Diamagnetic force, even though it's very weak, can be used to fight gravity, with the help of other forces or if the magnetic field is big enough.
Check this video for an example of levitation inside a very big magnetic field
ruclips.net/video/A1vyB-O5i6E/видео.html
Mm, the thing is the levitating magnet has its poles UP and DOWN, so you can't make it rotate using another magnet on the side
@roidroid - Roidroid asked "Why does the magnet float higher when between plates @1:12, rather than on-top of 2 plates @0:20?"
I had no idea but kept watching. At the end of the video he displays the full structure of the apparatus/base-structure and he has 3 magnets hoisted as above (so below) the diamagnetic plates below.
What this allows him to do is raise and lower the top magnets, which in turn affects the position of the central, levitating magnet (metal?).
+Соɾу ℛ. Yeah, so basically since there is a layer above the floating magnet that is repelling the magnet, thus making a force _downwards_ this allows me to bring the upper lifting magnets closer to the levitating magnet. This way the stable position of the levitating magnet is located higher in the air, with 4 forces being nullified here: The weight of the magnet, the pull of the lifting big magnets above, the repulsion upwards of the bottom diamagnetic plate, and the repulsion downwards of the top diamagnetic plate
What is the size of the magnets that you use. The cubic and the rectangular magnet. And what is the size of the graphite plates? Thanks for your answer.
I'm pitching a pretty cool diamagnetic levitation sculpture on kickstarter. (Search for 'levitation'.) Fully adjustable, so you could buy your own magnets and experiment too!
if you turn it long enough in the bismuth than the bismuth will get hot because of the current that flows trough it
If you place a second magnet on the side of the levetated one, will the levetated one spin?
@Jeduardoavalos Just uploaded the video description
@themassau very interesting comment
I melted them myself, chek my other videos, where I show how I did it.
looks liike a 3ds icon
Great! That looks fantastic! Good work!
Chemical iron repel
Bismouth (Bi 83) magnet repel (diamagnetic)
how much weight woult it hold?
Gostaria de alguma informação!Pare de ficar soprando com esse canudo!
Eu sopro meu canudo quando quero! Ha!
Busca por diamagnetismo e levitação diamagnética na internet. Materiais e configuração simples!
where do you buy bismuth
BuySomeApplez online
Isn't this just magnetic levitation with diamagnetic potential well so the levitated magnet doesn't fly up to the magnet above and ruin the illusion?
Yes. But why call this an illusion? It does levitate at room temperature, and without energy input! And it wouldn't without the diamagnetic forces at play.
Also, I made an effort to not hide how it works, including the part at the end of the video where I show the magnet structure above.
@@Fonserbc it's an illusion that the levitation is diamagnetic, not that there is levitation, see title of video
@@tricky778 How would you describe this levitation, if not diamagnetic?
@@Fonserbc as per my first comment