New King of Magnetic Power? | Electromagnet vs. Neodymium Magnet

You should give superconducting magnets a try. You won't have to worry about heat or any power loss, just need a good source of liquid nitrogen. Would love to see your detailed analysis of one!

Could we all just take a moment to appreciate the quality put into these videos? Truly amazing, keep it up man!

Overclocking an electromagnet and colling it with an AIO. Are we now at LTT? 😆 Biggest gains on that magnet would come from cooling it down with LN2.
Would be a great vid, temperature vs magnetic strength vs power draw. With that tesla meter of yours, it would be very interesting to see that curve!

I'm an engineer that designs linear motors with permanent magnets. Your testing of the open air magnetic field does not represent the lifting power of the electromagnet. If you put the electromagnet against a flat piece of steel with a gauss meter in between, you would measure a much higher field. Note that the steel plate should be thick to get the highest measurements (10 mm thick is probably enough). With the electromagnet in the open air (no steel plate), the magnetomotive force must be distributed across the air gap between the center circular pole and the outside ring pole. If you put those poles against against a flat steel plate (steel has high permeability), the air gap is much smaller, and you will end up with a much larger field (probably around or over 10000 Gauss, approaching the saturation point of the steel pole in the center). When you use the neodymium magnet against a steel plate, it's large magnetomotive force is mostly spent creating a magnetic field across its own (low permeability) interior -- its own material acts much like an air gap. It's magnetomotive force is so high, however, that it can create high forces.
I would suggest that you perform a lifting test with the two magnets, and see how much weight you can lift with each one. Hang your magnet from a strong support with the poles facing down on the electromagnet (it looks like the electromagnet may have threaded holes for this purpose). Stick a thick (1 cm or more), flat piece of steel to the bottom of the magnet. Add weight to the steel until it falls off. That will give you a much better idea of the lifting capability. Repeat with the Neodymium magnet (You will likely have to use a clamp to hang the Neodymium magnet, or you can just stick it to the bottom of a thick steel beam or plate).
The electromagnet will have high attractive forces with a small gaps, but the force will fall off quickly with increasing gaps. The Neodymium magnet's forces will fall off more slowly with increasing gap.
When performing the same test with a thin sheet of steel, the sheet of steel will saturate (it has high permeability for only about the first 20000 gauss, and then saturates), and you will get much lower attractive forces.
Good luck!

The truly strongest form of magnetism is produced by your enthusiasm for magnets. It's what keeps attracting people back to your channel.

The magnetic strength doubling with a 4 fold increase of wattage is logical. The field strength is linear with the current, and the current is linear with the voltage. Since P=I*U and I and U both increase linearly with the field strength, the power (wattage) increases quadraticly (or the magnetic field with the root of the power). To combat the heating issue, set your power supply to "unlimited" voltage, and limit the current, then the field strength will stay constant (even though it still heats up a lot)

A lot of times when stuff is advertised as "12V" they actually mean something more like 14V because that is the kind of voltage it would actually see in an automotive application and most 12V applications are automotive. Could explain some of the wattage discrepency.

Electromagnets are interesting in their own right, though happy to hear that passive neodymium magnets beat them out in some cases! Great video as always.

The electromagnet has the advantage of metal cup to close (concentrate) the magnetic circuit. If you gave the neo magnet a similar cup it would increase its holding force, further increasing its advantage. A lot of fridge magnets do this so they can use cheaper ceramic magnets that wouldn't hold without the cup. flexible sheet magnets do something similar by alternating polarity in stripes.
You should also look at switchable permanent magnets as they have feature parity with electromagnets.

That was such a good safety tip. I would have never thought about needing a UPS for your lab bench power supply.

I love this channel so so much. Thank you, Brainiac75!

Just started binge watching this channel a few videos ago. Looking forward to seeing the progression up the liquid-> water -> sub-ambient -> L2N goes, as the colder it run, the better it runs.

You can get "switchable" permanent magnets as well, where you turn something on top to change the positioning of two magnets to cancel eachother out in the off position. (I'm sure you know this, but since you mentioned the ability to turn off as the main advantage I thought I'd add this comment)

The King of Magnetism is Back!

Will come back for the follow-up video. Well done!

Your channel is such a great find

Great video. This gave me inspiration to prepare some electromagnets for use around the shop.
My son wanted to make a solenoid engine for a class of his. Running the math to look for more power we found a honey comb array of smaller core and coils had a lot of advantages. We never built it though. His teacher was happy just with the math
Thanks again for the video

I love brainiac's content every time

Great video !

I'm happy you are finally getting into electromagnets. I really like neodymium magnets. I allways seem to find stray magnets and I have an ever growing collection. I found a stack of 4 2"x3x1/4 on a shopping cart. Those are super strong and were an amazing find.

I look forward to more of these! Cooling tests will be fun. You could do some pulse tests as well. If you can manage the power supply requirements you can pulse 10 times or more it's rated current, albiet for only a split second. I'm not sure what you would use it for but it would probably make an interesting video.

Please don't say "overclock" when you are only changing voltages and currents to values out of spec. The correct term is "overvolt"
Having said that, I've enjoyed the video! Let's see what the future brings for that little magnet-on-demand! Cheers

Great content!

Excellent video

Very interesting!

Nice video, thanks :)

Oooh! This is fun! I'm particularly interested in how active cooling could affect it.
I've been wanting to try building a little Gauss/coil gun for a while, and have been curious if cooling the coils could improve performance, but haven't been sure how much, if any difference it could make. (been thinking of using a Peltier cooler to get them quite cold)

I love making those little homemade bolt electromagnets in fact, If you give the electromagnet more current it will get hotter. More Voltage = More Strength | More Current = More Heat. I even tried to make an electromagnet oven by giving it around 5v DC 2 amps. this gave the magnets a fair amount of strength. but they got very hot. I was almost able to make toast with my oven! They even have induction cookers that are just a giant electromagnets with lots of current. It's fun to experiment with this kind of stuff! keep it up Brainiac75!!

Your electromagnets brought some memories. When I first got to deal with the math of electromagnets, I decided to try some optimization of my own. To my frustration, the math "converged" always to the lowest number of wire turns, using heavier and heavier gauge wires. In fact, my end result was that a single turn of wire that filled the whole available volume always produced the highest magnetic flux with least resistive heat. Of course, the flux density is determined by the air gap, as long as the core does not saturate. Your probing showed well below my usual assumption of 1.2 T (tesla = 10 000 gauss) to 1.5 T field density saturation for ordinary magnetic core materials. So you would be able to push beyond the neodymium field density with a single turn winding and maybe 0.1 V / 200 A supply without excessive heating, if you can provide such a supply. (0.1 V x 100 A = just 10 W).

Magnets happen to be one of my favorite subjects. I believe if the core were taken out and shaved to half its diameter, and then rewound with more windings, you could potentially double the gauss output with the same volume. Can't wait to see you build some of your own! Imagine the ones they use in wrecking yards to lift entire cars, the possibilities are endless.
Speaking of turning on and off, I have seen some permanent magnet gadgets that turn on and off the magnetic field by flipping a lever. What's that all about? Great video!

I'd definitely like to see the results of cooling the elecromagnet. Regular computer heatsink, heatsink with fan, submerged in ice water, heatsink with ice water submersion, liquid CPU cooler, or even liquid nitrogen as someone mentioned. Maybe you could use an intermediate medium to work your way down to liquid nitrogen temps instead of doing it all in one step.
Hopefully you'll do several of those, but even one cooling method will be neat. Thanks for a great video as always.

Great video, When I was younger I used to work for a company that had an electro magnetic lock on the door. During office opening hours the door was propped open and the magnet was at the top of the door frame. For fun we would turn the lock on and put some paperclips on the magnet. Then when someone walked through the door we would turn the magnet off as the paper clips dropped on their head. It was harmless fun as we watched from a distance as the bemused person wondered where the paperclips came from. This would amuse us for hours.

A quality experiment to entertain before bed. Goodnight, Brainiac75.

I wish I had cared about my firsts as much as this guy. Starting his first electromagnet for the first time with his first power supply. Very cool.

Fascinating!!!

I made my own electromagnet recently out of an old microwave transformer. Using a couple old car batteries it got hot fast but it was so strong with that much current, the shovel would instantly stick and not come off until the power was disconnected haha
It was fun trying out different ways of powering and messing with different sizes of transformers

This guy take months to make a video but it was worth it

Good video for a nice evening.

Wow that’s so cool

Funny my first thought with the electromagnet when I saw its performance was - what if it was cooled and you over-volted it? And of course the next thought was - what if you cooled it with LN2?
Also I think it would be neat if you could get your hands on a bitter electromagnet or maybe collab with a bitter magnet manufacturer. I think the current record for man made magnetic fields is a bitter magnet rated at 45.5 Tesla (455,000 gauss). Would be super cool to see you experiment with one.

Very nice video!
Have you heard about the combination permanent- and electro- magnets used for safety critical / lifting applications? This unit includes a permanent magnet with an electromagnetic component. The permanent magnet will produce an external magnetic field under normal non-energized conditions. When the electric coil is turned on, it provides an internal magnetic path, preventing the unit from producing an external magnetic field. No power is required to HOLD the load on the magnet, but power is required to RELEASE the load. These are used for lifting and hoisting, where a power failure with a "pure" electromagnet would result in a dropped load. I think they call it an "electropermanent magnet" assembly.

Seeing you overclock the magnet with an AIO would be awesome, hope you do it!

Got to it a little late, but awesome work as always!! I'd love to see if the magnet can handle more power without concern for heat, is there some sort of limit for how much you can safely pump in them?

You might like to read ‘Magnetic Venture” by Audrey Wood. All about Oxford Instruments and the development of big magnets for NMR and later super cooled magnets for MRI scanners.

Would be nice to see it cooled down with LN2!

Superconducting Magnets are fascinating as well as dangerous too
Thanks for the Video

wow!
nice vid!

Guys in the future our electromagnets will be water-cooled, braniac is making a breakthrough 😂

Very detailed overview. I challenge you to solve the faraday paradox!!! A faraday homopolar generator with fixed magnets on the rotor, poles will be axially and radially. It produces dc voltage with no back emf

Thanks!

I’d love to see you take a look At electro permanent magnets. They’ve always fascinated me. Basically a “pulse” of current switches them on and off - during either operation, no electricity is required!

There is a trick with electromagnets , which allows you to reach higher pulling force than any permanent magnet is able on , without overheating of the coil .
You need to grind (as fine as possible ) electromagnet’s poles and the metal surface on which you want to lock them . Than use capacitors battery ( you may need ultracapacitors ( also known as supercapacitors or ionistors ) ). Charge the capacitors battery to few times higher voltage than the electromagnet is rated for . Than discharge the capacitors battery via the electromagnet’s coil . The enormous current pulse will create enormous magnetic field . The interesting part is that this field doesn’t disappear or weaken in the magnetic guide after the the coil current is disrupted so there is no any reason for heating and the magnetic guide loop can stay closed infinitely. You can open it by applying the same amount of current but with opposite polarity of the voltage on coil terminals . You can see such experiments in the following video czcams.com/video/s-5FMFzSPYU/video.html unfortunately on Russian language .
By the way the strongest magnetic fields are archived by electromagnets !

Making a a hybrid of the two would have novel properties, like being able to turn a permanent magnet's field temporarily off, or able to steer its direction.
Hybrids are used in load speakers and bidirectional solenoids.

Ok this is definitely something I never imagined hearing: Watercooling and overclocking your magnet. LOL

The magnetic bridging was interesting, first time I've seen it.
I'm curious about using this for an electromechanical sculpture. If you wanted to lift a block (containing a permanent magnet) above it, what would be the most efficient way to do so. For example, shape and size ratio of permanent magnet, bridging vs not, orientation of permanent magnet, Halbach array usage?

I second the AIO cooling for a future video.

What about heating in the electro when holding a load (poles connected with Fe object)? What about advantages of electros vs Neos in generator or motor applications (control vs economy)?

I love how we are both thinking about water cooling the electromagnet.
But do watch out for the magnetic impeller inside many all-in-one cooling solutions. It might be better to get a custom water cooling loop.

You should go all out with experimenting with pushing a electromagnet's ability and using a cooling system. Its just really interesting to be able to play with the settings, adjustments, etc. Im wondering if there could be some insane ways a super powerful one, or a setup system of them could be used if say: hypothetically you ran some off of a modern advanced nuclear energy reactor. Could be small form, thorium reactor, LFTRs... But could definitely power some really fun science experiments that's for sure. And the energy source would be efficient, no emissions, stable, strong. It would be exciting to power a efficient system that runs off of the electrical output from a power source like that.

Hi, thank you ☺️

Pulsed DC and / or AC could possibly result in better performance but depending on electromagnet design and the frequency used can cause either more or less heat build up. Any added complexity would also add to the potential for failure.

I really enjoyed your video . I have a question , what is better in a marine environment Neodymium or Samarium cobalt ? How long do the coatings last on Neodymium magnets in a marine environment ? What about a comparison of the impact resistance ? what about the affect of direct tropical sun , heat + UV ?

Congratulations ! This is one of the bether videos that a have seen !
The question is : If I need 8w of power or 8 joules by second of energy to get 400 N of pull , what kind of energy the permanent magnets need and where it receves this energy from?
It is almost sure the neodymium magnets receves a kind of energy from universe , then it is not so absurd to imagine a magnect mouter runing by itselfs .
Do a video comparing the capacity of moving wheght corps by eletromagnets and permanent magnets along the space. Please!

YES! more electromagnets!! That is pretty cool. I think you should give a microwave transformer a try, easy to get and you can cut out the secondary and put 2 primaries into it for more coils!

I'd really like to see you make your own electromagnet, that is as strong as you can possibly (and safely) make it.

Of course the real fun is combining the two types of magnets. That's how you get things like motors, actuators, voice coils, etc.

Thanks for your efforts!
What is the steel used for the electromagnet!
What is the core material!
Are there lamimated sheets any where?

You should try to make halbach array out of neodymium, electro magnets, and super conducting magnets.
You can arrange them to concentrate the fields and make them even stronger or make them cancel out to "turn off" neodymium magnets.

I work at APC (by Schneider-Electric), and seeing an APC UPS in this setup makes me giddy.
Too bad our testing cage is off limits when active, it could have been a fun video.

You know very well, how the permanent magnets are beeing magnetized 🙂 That is fun!

I have an implant for pain managment and have to be very careful with manets.
So this gives me a chance to "play" via the interworld with some very sticky magnets
Thanks 2x👍

1:20 Things that determinate the strength (independent of power source):
° The wire used for the coil (material, gauge, length)
° The core (material, shape)
° And very important: How the coil is wound.

You should test electromagnet door locks. The ones commercial buildings use to lock their doors. Not a lot of pull force, but holding force is incredible.

Will you create a VOD upon gram comparison? To understand traveling usage

@1:37 - "...with my first lab power supply." I know this wasn't a joke, but considering the stuff you show off, this made me laugh out loud.

Would you try a homemade/custom built hybrid neodymium magnet core with outer coil electromagnet? A curiosity experiment. Thanks for the great video! 😎👍⚡

Great video, thankyou ! You saved me a lot of experimentation.

Would be interesting to see the pull force at various distances.

The "overclocking" your trying would be better suited if you had a cooling platform to maintain a constant temperature at the electromagnet. The pc watercoolers are designed for use with surface area, rather pointless on a longer bolt shaped magnet. But fairly effecient the flatter the area contact to help cool it. My suggestion for cheap regular cooling would be a pressured airflow system. The airflow and pressure changes around the magnet from a fan suction properly mounted on the back would be able to counter the heating rate. Make a plastic mount to clip on the electromagnet that provides optimal airflow and pressure based on the space around the magnet for it to suck the air. The smaller the gaps the higher the pressure required but it also increases the heat disapation by allowing more constant use of the surface area's.

I've had the fortune to be around industrial strength electric magnets from a young age. It's amazing what can be done with them

0:37 "Becareful near strong magnets, dont let them near you fingers" next shot is him holding the electro-magnet

Reminds me of Codys Lab crazy electromagnetic that used a whole bunch of car batteries in series. If you want scary amounts of magnetic strength you need scary amounts of voltage and heat generation.

Some permanent magnets can also turn on/off by bend their flux in the same direction or opposite direction.(you need at least 2 of them with electromagnet material to make the magnetic force go in loop when turn opposite direction for turning off.)

You should check out switchable magnets. I have no idea how they work, only that they use a grid of permanent magnets lined up so that when you turn one part there's little to no magnetic field, and when you turn it back there's a very strong one.

I'd LOVE to see you home-build a monster electromagnet by obtaining a microwave oven transformer (MOT) and cutting off the top of the core and discarding either the primary or secondary winding, as well as the heater winding and magnetic shunts (if they will weaken the field, I'm not sure). The open-core transformer with only one winding becomes a seriously powerful electromagnet with very little work. If you can obtain 3 or 4 of them, you can power them in parallel from a DC power source and arrange them in an array, potted into a single housing. The resultant electromagnet would be able to hold several people hanging from it. I'd be super curious how the field strength of one of these MOT electromagnets compares on an equal weight and size basis to a high grade neodymium magnet with a similar magnetic field shape. :) I'm not sure about over there in your country, but here in the USA we have old, broken microwaves EVERYWHERE with (usually) good MOTs inside that have not been the point of failure. I know inverter-type microwaves are becoming popular, but they haven't really caught on here in the USA. Worst case scenario, you can buy a new MOT on eBay.

It is interesting what is the process of DIY making of permanent magnet with electricity.
Or fixing of existing one, which lost its properties.

I thought for a while how i could compare different magnets strengths with something carried everyday. Soooo i use a standard bic lighter standing up with the magnet flat on the same table. From how far away will the magnet pull over the lighter.

How does this compare with the electromagnets currently being installed in the ITER experimental fusion reactor?
There's a lot of info for ITER - I'd be interested if you would check it out and do a comparison with it like you did with the Earth's field.

i like the idea that cooling the magnet

This is exactly what I need to do my experiments with a variety of stuff. But especially plant growth and cellular health. I need an affordable electromagnetic device that allows it to be variable and see the actual strength of the magnetic field or it’s frequency.

I wonder what would be better/more efficient to get more strength out of the same electro magnet; add a radiator and increase the voltage, or add a heat pump (peltier+radiator) and thus lower the resistance.

Well I for one, am excited for this new age

I used to use an electro magnet at the machine shop I worked at and there was a slight delay from when the power was cut to when it lost its pull force , I was wondering if that just the nature or a electro magnet or if the system was using Capacitors that had to discharge first

What would be the effect of winding a coil around a permanent magnet core? To what extent would it add to or subtract from the permanent magnet force?

For this and your N40 magnet, I think the best video would be temperature vs magnetic flux density vs max load, with an overclocked electromagnet with a UPS, and cooled by either liquid nitrogen, liquid oxygen or water that is just above freezing point.

Just bolting a regular finned heatsink to the back of the electromagnet would help keep the temps down when overvolting the electromagnet. There is however a risk of burning out the windings if too much current is applied.
If you want to push the overvolting experiment further there's no reason you couldn't put the electromagnet in a simple waterbath, at least up to the top lip, since the windings are insulated and potted in resin. That would dissipate the heat quite well.

many lifting and welding magnets are build using permanent magnets, but the can be switched off! Perhaps you can look into those. Australian swich magnets are interesting, but there are many brands of this stuff, even very old 😂

I sense a monster neodymium versus monster electromagnet battle coming up, maybe like King Kong versus Godzilla??

Would enjoy electromagnetic stuff!

It would be interesting to see a super cooled electromagnet with statistics, however I'm not sure if you have access to LN2 or solid co2