AMAZING! Ferrofluid + Glow Sticks

This is why I love Science, even when you think you know everything about 2 separate things you can always find a way to mix them together and create something new.
Brilliant!

This channel is easily among my top 5.
Your videos are awesome

Ferrofluid lava lamps now!

Why a finite number of discrete spikes? Aren't fields supposedly continuous?

Just wanted to say thank you this is so cool for my 7yr old daughter, when I have her for my visitation I think she will really like this again thank you and God Bless

That looks so cool!! Love your videos, always so interesting and easy to understand. Thank you for your work Dianna!

I love seeing the reaction-diffusion pattern that forms after the field's removed.

You should get a Patrion account.
So far I haven't seen a vid of yours I haven't liked.

This is too cool. I could watch this all day!

My favorite parts of your videos are when you discover some new interesting and unexpected phenomenon! Keep up the great work :)

I love your examples and experiments of concepts in physics. I have a degree in physics, yet often I wasn't sure how the concepts I learned could be reflected in the physical world. I really appreciate your videos for that reason. :)

My daughter's response to the warning at 0:24 - "I want to try this at home!"

My explanation for the appearance of spikes: - The ferromagnetic particles become tiny magnets and align themselves in the direction of the field. This means that at say, the magnet's North pole, they stack up with each particle's North pole joined to the next particle's South pole, in a chain aligned with the field, pointing away from the pole. However, this means that at the end of a bundle of chains, at the ferrofluid surface, there are many North poles next to each other with no attached South poles. Since North repels North, the bundles of chains are driven to repel each other, while surface tension draws the surface inbetween them, and they split into spikes, rather than terminating in a smooth dome over the pole.

I'm so glad I found this channel. Thanks for the video.

I've seen some really cool sculptures with ferro fluid.endless posibilties with this stuff.

Last part with the dry ice was really cool. Could it bee that when you held it there it melted a spike pattern into it, making it's most comfortable position on those spikes that fits. And then the rest of the spikes around it works similar to a Leidenfrost effect to push it upwards?
Would love some in depth explanation of this though =)

thank u physics girl. I set that Oefner's art work as my desktop background. so one day that I had a presentation, my prof. asked me about it. and I couldn't explain the hydrophobicity correctly and he mocked me for it.
Now I have a good explanation! tnx

Very nice video... The observation with the dry ice is really a curious case. It reminds so much of the Meissner effect, but the puzzle is that carbon dioxide is not a superconductor at its freezing point. I gotta do this experiment.

I'm being the 2nd. Hey, Diane, just to thank you for making such awesome videos of physics. I myself am a great fan of physics and its supercool awesomeness, so thanks again for making such beautiful videos.

I'm totally trying this at home...
Your videos are the best on youtube

in the late 80's and 90's it was used in tweeters and mid range speakers to keep voice coils cool and to increase power handling

Amazing shots, i will pick up this idea on my macro channel:) Thx and Cheers from AnotherPerspective

Do we know how ferrofluids behave around magnets in microgravity?

This video was so informative. I liked the explanation for how the ferrofluid worked.

I'm just happy to hear you pronounce the word "experiment" correctly. That might sound strange, but you would be surprised at the number of hosts of "science" channels which get it wrong, including Hank from SciShow.

I want to elaborate a bit because I see some people are still confused as to why the ferrofluid spikes the way it does. She said they point along the direction of the magnetic field lines, not that they align to them. I think that's the source of confusion. The magnetic field is continuous. The distance between the spikes is determined by both the magnetic field and the surface tension (as well as some properties within the ferrofluid itself such as magnetic susceptibility.) It's a balancing act between many forces and the spikes are energetically favorable. It is not the manifestation of randomness. I can perform an experiment to demonstrate this if there is interest.

I've already done some projects with this fluid. they're very cool.

+Physics Girl My dad is a highschool physics teacher and I had him as my physics teacher when I was in highschool... and my older sister was in the same class as me as well!^.^

we got to play with metal filings + magnetic fields in school. That was cool, don't get me wrong, but it was 2D -- the metal filings are on paper. The 3D aspect of this really adds to it. Let alone mixing in the glowstick stuff. Good job!

it was cool to see how the magnetic field changed as the magnet got closer. it seemed to change the ferrofluid from something resembling a brain to looking like a fingerprint to finally spikes.

I was at the MIT museum this past weekend with a few students.. and there was a photograph taken of ferrofluid on the microscopic level.. i let my mind wander and remember thinking: maybe there is a field that binds all matter together in a similar way and that if you were able to remove the field.. all matter would lose its attraction to one another and turn into an unrecognizable goo just like this ferrofluid.. that there is something inherent within matter that reacts with the field in a particular way that gives rise to protons and neutrons and molecules and all the rest..
and then you post a video of ferrofluid a few days later.. very nice! :D

"There's so much physics happening here!" ... Really, can you think of a single situation where there ISN'T a bunch of physics happening?

Anyone got an explanation for the observation with the dry ice? That was really cool!

I dont know why but seeing that gave me chills!!!!

if you have a powerful enough magnet and some ferrofluid, could you make spikes that could potentially pierce skin? That'd be pretty sweet for SO many applications....... like the T-1000....

I have a hypothesis for the dry ice suddenly switching direction.
I think it's happening because the ferroliquid freezes and then sticks onto the dry ice, which means the whole underside functions as a magnet that is then attracted to center

I liked this video mostly because I thought the last few comments on dry ice behaviour were cool as.. Thanks for your work! :D

You explained ferrofluid so much better than most channels

honestly i have learnt more interesting stuff and better in the 3 weeks ive watched of your vids than my whole physics unit about certain liquids and their behaviours... and for this i thank you, alot. I have an avid interest in physics and chemistry and im just about to start my A-levels studying them. :-)
also there is a 2018 CERN trip, I can't wait!!

F = q(v x B) and T(surface tension)=(h*rho*r*g)/2 put into F=ma
Holy crap that's a lot of physics. I love it!

Why can't we try this at home?

I was already the favourite Uncle .. cannot wait to blow out a candle with an "empty" glass & watch the wow in their eyes ..
Thanks :)

THIS IS SO COOL! I adore you so much!! :)

Last time a girl told me to meet her in a garage I woke up in a bathtub full of ice with a missing kidney.

So alien / awesome! Thanks for the great explanation.

Just for the record, magnetite is not a metal. It is an oxide with the formula Fe3O4. And what really disturbs me is that no one seems to have noticed it.

That is so interesting and cool! When the spikes form, are they hard like a nail or pliable!?

What's the song that starts at 0:34 ??
Great video btw, would really like to understand the dry ice behavior.

Wow. You just made Feynmans double slit pattern visible in makro-scale!

This is really amazing!
Do you have more Photos like this??

I just love learning ❤️

Electromagnetism shown beautifully by fluorescence here. Big props i love it

Awesome stuff! Would it be possible to make a magnetic gas if enough particles were airborne?

This is very similar to the Messiner Effect.
The dry ice and its cold temperature was expelling the magnetic field but not the magnetic fluid and it was riding an induced electric field generated by its own cold temperature. This acted as an electric conduction motor of sorts and the ice moved on its own to the center. This is very educational if you want to teach about electromagnetic fields.
If the ice was any colder it would have started levitating at the center where the magnetic field lines are most numerous and therefore strongest.

You rock! Subscribed.
Brains and beauty :)

I've seen something similar done with dish soap and pulverized iron filings.

Questions:
What if you touch it?
What do the spikes feel like: Solid or liquid?
What if you ate it?
How is this found?
What if you mixed it with lead?
Can you make slime with it?

I saw this done with what seemed to be a cone with a long strip of electromagnetic wound across it, to the end. The result was like nothing I'd ever seen without the aid of a CGI.

the dry ice could induce a higher conductivity in the magnetite, strengthening the field and locking it in place.

Imagine this being a screen saver :D also I found your channel not that long ago and I love it keep making awesome physics videos !!!

That was absolutely awesome. :) I'm really tempted to break out my ferrofluid goop and try this.

Why have I never seen your channel before?! Omg. This is awesome ! Subbed. :D

Interesting... the tendency of the dry ice to move back to the position in which it was held is very similar to superconductor "flux pinning." If I were to hazard a guess, I would say that the dry ice cools the ferrofluid surrounding it, fixing it in place on the dry ice surface and locking in the magnetic moment of these particles. Because the magnetic moments are aligned with the external magnetic field at this position, if the dry ice moves, it will bring some of the particles out of their desired alignment, creating a torque that would resist this movement.

How am i supposed not to do it RIGHT NOW!? that was beautiful

I really feel like some kind of electromagnet array thing should be put together, put under the ferrofluid (with the glowstick goo). Then you could feed a music track into software controlling an array, and have a physical music visualizer. Should do that...

I don't understand the science but this is cool af, same as pretty much all the other videos I can't understand physics well apparently but it's still cool

Quality. Diana Cowern on a mission to get girls I to Physics. And us guys too. Her videos breath fresh air. Just proves your enthusiasm will rub off on your viewers

That's how it should be shown in schools :3 Awesome!

So... Totally... Awesome!!!
I wanna try that.

MORE ! I want MORE videos ^^
On a serious note, these videos are really great. Congrats ! Ferromag fluids have a lot of interesting properties, and we still don't know/understand many of them. I'm sure applications will be found with it.

Oh, ferrofluids, what a mess they are to clean up after you've played with them :p
As for the dry ice thing, my guess is that the piece of ice is first repelled because of something similar to the leindenfrost effect : the gas generated by the ice piece pushes it away from the liquid, but if you first cool your liquid, the gas generation become slow enough that the surface tension of the liquid wins.
Also, I'd like to know where does that little song that plays at 0:04 and 1:59 come from? It's the theme from a science radio show that I enjoy listening to and I'm surprised to find it here. It's just out of curiosity. Don't worry, I am not accusing you of infringement :)
Thanks!

3:20 There's a misconception that ferromagnetic powder and ferrofluid tend to group into the magnetic lines. There is no discrete number of lines to be "grouped into", instead there are infinitely many lines and the ferrofluid only aligns with them. I don't fully understand how it works, though. It would be awesome if she made a video about it.

Very nice! What is the music that was playing between 0:40 and 1:15? I could watch that sort of thing for lonnnnng time, the patterns and colors are mesmerising.....

Es maravillosa tu página🏅🏅 FELICIDADES

A wild guess as to the ferrofluid observation: I think some of the ferrofluid froze onto the dry ice, making a dry-ice-cum-metal lump. The metal end of the lump wanted to stay near the magnet, at the top of the mound, so it was attracted there. It stayed on top due to the relative density.

Nice explanation!

Wow that looks awesome!

Physics Girl -
Hey awesome video i'm a subscriber now! where di dyou get the idea to mix the ferrofluid with glowstick liquid?
aweosme vid

thats awesome. i'm also interested if that fluid could carry electricity and why not if it cannot... i could google it, but i like her answers a lot better, haha.

This is my new favorite channel.

Nice to see you're still going strong!

Rave fluid! Love it

This looks so cool!

My guess is that it rolled back to the top because it had ferrofluid on it, so if it was on top of what is more or less a friction-less surface { suspended on points } the ferrofluid on top of the chunk of dry ice would be enough to pull it to the top to follow the field lines
The question I have is: How does the magnet get so cold when conduction is limited to the surface contact between the dry ice and the ferrofluid { essentially just a few points } ?

OMG that's so amazing!

Awesome. Love all videos... Keep going...

resembles the organic behavior similar to cell growth in time laps.

That's amazing! and beautiful as well

Very informative, thanks.

I think holding it onto the fluid creates a smooth shallow cavity at the bottom of the chunk. And it's just geometry from there. No?

The magnetic field lines drawn at 1:32 are confusing. They seem to be going both counter-clock-wise and clock-wise. The center lines are going down, so wouldn't the right-hand rule indicate that the side lines should only be going clock-wise? Are the lines correct and my understanding of magnetic field lines incorrect, or is something else going on?

Rather than using a chemiluminescent material that will soon fade, how about some sort of fluorescent fluid(s) and an ultraviolet light?

+Physics Girl
What would be your best explanation for the "roll up the hill" effect?
I think that maybe the cooled down magnet has a diminished magnetic power in the area near its center so the spikes create a plain surface or even concave for the ice to stay.
Could that be the case?

I didn't really understand the spike explanation. The part about the spikes lining up with the magnetic field lines.
If I don't think much about it, it makes sense, but after some thought, I remember that magnetic field "lines" are just a visual representation of the magnetic field. There aren't actual lines in real life, just a field of magnetism.
Essentially a vector at every point in space. And if it's at every point in space, there would be no lines for the spikes to follow.
I can accept that the spikes point in the direction of the magnetic field, but what causes them to be individual spikes that are separated? Why do certain regions rise, but others do not?

Dianna, does the dry ice "going up hill" have anything to do with Flux pinning? en.wikipedia.org/wiki/Flux_pinning
Kinda like that lexus hoverboard that uses liquid nitrogen?

That would be such a cool sci-fi effect in a video game !

I saw you in Matthew Santoros Vlog and your channel sounded interesting, so here I am, a new sub :-)

This video is so much better than the one from CrazyRussianHacker, amazing macro shots and actual information

This is brilliant and btw your skin has some kind of glow in this video :D

Looks awesome!