- 23
- 10 816 611
Ithaca College Physics
Registrace 4. 04. 2008
Quantum Levitation - Superconductor on a Magnetic Track
In this video, we explain properties of superconductors and how to achieve quantum levitation, and present our newest addition to the superconding puck - a 3D-printed cap with LED lights!
Superconductor purchased from quantumlevitation.com
Link for further reading: arxiv.org/pdf/0803.3090.pdf
Learn more here:
czcams.com/video/Vxror-fnOL4/video.html
czcams.com/video/uKnUCz8pads/video.html
czcams.com/video/1zwBoBbHR4I/video.html
#fyp #quantum #quantumlevitation #superconductor #physics #ithacacollege
Superconductor purchased from quantumlevitation.com
Link for further reading: arxiv.org/pdf/0803.3090.pdf
Learn more here:
czcams.com/video/Vxror-fnOL4/video.html
czcams.com/video/uKnUCz8pads/video.html
czcams.com/video/1zwBoBbHR4I/video.html
#fyp #quantum #quantumlevitation #superconductor #physics #ithacacollege
zhlédnutí: 1 534
Video
Ithaca College Department of Physics and Astronomy Welcome
zhlédnutí 2,1KPřed 3 lety
Welcome to the Ithaca College Department of Physics and Astronomy! Take a look at what our special department has to offer! Created by Professor and Chair Beth Ellen Clark Joseph and Lily Joseph.
Quantum Levitation on a Figure-8 Track -- in Slow Motion!
zhlédnutí 14KPřed 7 lety
From the Low Temperature Lab: Quantum Levitation on a figure-8 track in slow motion! Our regular figure-8 track is here: czcams.com/video/uKnUCz8pads/video.html A flux-pinning enhanced superconducting puck is pinned to a magnetic loop-the-loop track, levitating above it and suspended below it. This demonstrates the quantum physical effect of superconductivity and the Meissner Effect as well as ...
The Making of: Superconducting Quantum Levitation on a 3π Möbius Strip
zhlédnutí 31KPřed 7 lety
From the Low Temperature Physics Lab: We built a 3π Möbius strip track that demonstrates quantum levitation! Our track is not an "ordinary" Möbius strip with just one twist, but rather a Möbius strip with three twists 540 degrees, or 3π radians, thus, a 3π Möbius strip track. Our video on the track is here: czcams.com/video/Vxror-fnOL4/video.html This movie describes how we built it and the pai...
Pulsed Laser Deposition / Superconductivity - Ithaca College Physics and Astronomy Summer Research
zhlédnutí 4,4KPřed 7 lety
An inside look at the research conducted by students enrolled in the Ithaca College Physics and Astronomy program. Research opportunities are available to students as early as their Freshmen year and allows them to truly get hands on learning experience early in their college career. Follow Eli Adler '16 through his summer research and journey at Ithaca College.
Radio Telescope - Ithaca College Physics and Astronomy Summer Research
zhlédnutí 631Před 7 lety
An inside look at the research conducted by students enrolled in the Ithaca College Physics and Astronomy program. Research opportunities are available to students as early as their Freshmen year and allows them to truly get hands on learning experience early in their college career. Follow Schnayder Termidor '16 and Duncan Allen '16, through their summer research assignment. Filmed and Edited ...
3D Laser Scanning and Printing - Ithaca College Physics and Astronomy
zhlédnutí 701Před 7 lety
An inside look at the research conducted by students enrolled in the Ithaca College Physics and Astronomy program. Research opportunities are available to students as early as their Freshmen year and allows them to truly get hands on learning experience early in their college career. Follow Addison Herbert '16, Ryan Fedora '17, and Evan Van De Wall '16 through their summer research assignment. ...
Superconducting Quantum Levitation on a 3π Möbius Strip
zhlédnutí 9MPřed 7 lety
From the Low Temperature Physics Lab: Quantum levitation on a 3π Möbius strip track! Watch the superconductor levitate above the track and suspend below the track, without having to go across the edge. Our track is not an "ordinary" Möbius strip with just one twist, but rather a Möbius strip with three twists 540 degrees, or 3π radians, thus, a 3π Möbius strip track. You can also check out the ...
Back to the Future Day - with Superconductors!
zhlédnutí 2,4KPřed 8 lety
From the Low Temperature Lab: Marty McFly and his hoverboard come to life with the help of quantum levitation and flux-pinning enhanced superconductors. See Marty hover over the ground and watch the DeLoran float! The hoverboard was 3-D printed at Ithaca College. All demonstrations and tracks made at Ithaca College. See more at our website: faculty.ithaca.edu/mcsullivan/ . To learn how to build...
Quantum Levitation on a Roller Coaster Magnetic Track (MagLev) in Slow Motion
zhlédnutí 41KPřed 9 lety
From the Low Temperature Lab: Quantum Levitation on a roller-coaster loop-the-loop track! A flux-pinning enhanced superconducting puck is pinned to a magnetic loop-the-loop track, levitating above it and suspended below it. This demonstrates the quantum physical effect of superconductivity and the Meissner Effect as well as magnetic flux pinning. Portions filmed in slow motion at 100 fps. See m...
Ithaca College Physics Featured by the American Physical Society
zhlédnutí 608Před 11 lety
During the March Meeting 2013 Meeting of the American Physical Society • March 18 - March 22 • Baltimore, Maryland the society initiated APS TV: Broadcasting from the March Meeting The Ithaca College Physics Department was one of the featured departments. The American Physical Society is partnering with the international film and broadcasting company, WebsEdge, to bring APS TV to this year's Ma...
Archaeogeophysical Surveys in Cyprus
zhlédnutí 768Před 11 lety
The Kalavasos and Maroni Built Environments (KAMBE) Project is an interdisciplinary investigation of the relationships between architecture, social interaction, and social change on the eastern Mediterranean island of Cyprus during the Protohistoric Bronze Age (Middle Cypriot III Late Cypriot IIIA; c. 1700-1100 BCE). This collaborative research brings together expertise from the Department of P...
A Year of Solar Energy: Power from Solar Panels
zhlédnutí 858Před 13 lety
A Year of Solar Energy: Power from Solar Panels
Double Pendulum Demonstration and Simulation
zhlédnutí 6KPřed 14 lety
Double Pendulum Demonstration and Simulation
Stable Kaye Effect - leaping shampoo demonstration
zhlédnutí 27KPřed 14 lety
Stable Kaye Effect - leaping shampoo demonstration
Superconducting Summer Physics Research 2007 - Part 2
zhlédnutí 987Před 14 lety
Superconducting Summer Physics Research 2007 - Part 2
Superconducting Magnetic Levitation (MagLev) on a Magnetic Track
zhlédnutí 941KPřed 14 lety
Superconducting Magnetic Levitation (MagLev) on a Magnetic Track
Levitation and Suspension of Superconductors via Magnets
zhlédnutí 163KPřed 16 lety
Levitation and Suspension of Superconductors via Magnets
so if you could create your own Mobius strip as you are moving it would mean.... yeah sure you know what itd mean
Tak ustroen kosmos.☘
Так вот как строили пирамиды в Египте 😁
This kind of videos is just a disservice to science.
The fact is that it shows less weight before the suspending string was broken. It doesn't matter how much you have fabricated a story, it doesn't explain why the initial weight was less.
Riskreunners
Are you sure it's not the nitrogen that stays low to the ground that interacts with the magnet more importantly than the material superconductor. It might acknowledge other minerals it gases in the superconductor. Have you attempted to pour nitrogen on the magnetic field? Or eliminating particles in the superconductors to find the true chemical reactions making it weightless? Also weightless isn't the truth and weight on them becomes a significant factor.
Your experiment did not replicate what happened in the clip you showed. There are a few discrepancies. First is the lift - he didn't lift it straight up, the spinning wheel was lifted at an angle. Second - he didn't make multiple revolutions. It went around his head not even a full circle. Third - after going from roughly shoulder to shoulder the wheel was again dropped at a steep angle. Fourth - you suspended the gyro from a string which never happened in the clip you showed. Unless the gyro is attached to a replica of the arm your test results are also incomplete. As for the results, you look at a straight line as if its your answer, but in fact the sensors continue to jump around giving higher and lower information which raises interesting questions about why a straight line is used instead of looking at the specifics of when and why something happened in a set time frame. If you replicate the angle of lift, the half circle motion used around his head, the angle of descent AND have the equivalent of a arm used, your experiment would be much more accurate. And if you take into account the actual sensor readings instead of assuming a straight line, you will also get different information from your own results. AND the type of sensor you use will have a massive impact on the results. But even if you attach all the sensors you want, it still doesn't change that a man who was struggling to hold the weight with two hands, and you can see the scale shaking, could later move it with one hand.
Fun…sure, but knowing EACH of those block magnets is like fifty bucks make this a very expensive student toy. Who paid for it?
Show an example of true levitation something thousands of feet above Earth without propellers or wings that can turn on a dime accelerate beyond belief because of a Focused Field in front of it that you're falling to constantly can make 90° turns because you're being pulled in a falling motion so you never experienced G-Force
I'd love to see a simple circle with a slight tilt in favor of g-force, inside of a vacuum chamber. With no friction or air resistance, I'd like to see how long it could spin (assuming you can push start both times with the same amount of force) compared to outside the vacuum chamber.
Cut side strips and half them over and make a mobius clover propeller
Make a paper mobius strip and cut it along its length; 1 cut: double mobius strip 2 cuts: mobius strip inside mobius strip 3 cuts: double mobius strip inside mobius strip
How you control the track so that it flows only in straight line?
It’s not about weight it’s about inertia
I just want a floating toy Christmas train.
Maybe someone should make a theme park ride out of that
Just had to put that ghey ass music in the background, huh?
Pretty awesome!
-320-degree chunk, levitating on a 540 degree strip. Gonna need to show your work. Here is is - watch the video!
im no scientist but this feels like a gimmick and i highly doubt it will ever be fully utilised or developed and its certainly never going to be commercially used. cool video though
This is the future highway of the real "flying cars"
Sounds like a bit of a dumbed down description Its called quantum locking Bit yeah cold temperatures sound like a bummer They got a new room temp semi conductor Witch lead me to run onto this Right wouldnt it make a great (Hot wheel match box car race right....) DonsXDragons Mc Anarcho communism is the party of enlightenment🔥📺🐉
The area where you cut it and twist it around, this means it takes you from one side to the other, and when you get around the other side back to this twist from the opposite side it will being you also back to the original side you were on, so it basically just repeats that infinitely.
What about babies? What if you made the track larger, and then used super-cooled babies?
Ok now think of it on bigger scale for infinitely magnetic quantum locking energy for homes and company free energy by hooking cooper coils to the circles of the loop and adding soiler tiles for double the time..
music? wth?
Beautiful. Thank you 🙏
why we dont have trains from this?
Shit music ruined video
what would happen in a cold vacuum
I want to see that human sized at Magic Mountain. That would be the greatest coaster slide of all! ... "The 3π Möbius Strip!"
Установил такую конструкцию от квартиры 9 этаж до магазина. Теперь пивасик сам катается до дома.
Nice music!
Fantastic ! Thanks a lot ! and congratulations
It still fucks my brain watching it change sides
I love Physics
Insane! wow, crazy!
Tony Stark saw this vid and saved the world with the Avengers so kudos man
Without watching your video the answer is no. A rotating gyro does not lose weight.
Imagine the low IQ to believe this is groundbreaking rather than a waste of resources.
So what's the point?
New Rollercoaster Type just dropped.
MUSIC IS COUNTER PRODUCTIVE DSURING MENTAL USE!!!!!!!!!! If you want watchers GET RID OF THE MUSIC. . . . I can't hear you with it. lol. . .
The Mobius Strip is deceptively the more interesting object here, being the basic building block of all non-orientable surfaces. That means that an entity living on such a surface cannot consistently distinguish between clockwise and counter-clockwise. By heading north you are going south and by heading south you are going north. Imagine a non-orientable universe where the very idea of direction becomes as mythical as the idea of angels. I fervently believe that the Mobius Strip's properties has a lot of untapped potential in engineering and mechanics. For example, BF Goodrich patented a conveyor belt in the form of a Mobius Strip which lasts twice as long, as it wears on both sides instead of one. This is due to its property of one-sidedness.
So when it starts to cool down does it lose the ability to stick?
How cool would it be to create a track to race cars endlessly around a long track in this way?
You kids and your topology
lots of words to describe a photosynthesis hot wheels track
cold separated magnets?