Reddit mentions: The best science education magnetism kits
We found 10 Reddit comments discussing the best science education magnetism kits. We ran sentiment analysis on each of these comments to determine how redditors feel about different products. We found 5 products and ranked them based on the amount of positive reactions they received. Here are the top 20.
1. EFH Series Ferrofluid (60 ml) 2 Oz
- 8th Generation Intel Core i5-8250U Processor (Up to 3.4GHz)
- 15.6" Full HD (1920 x 1080) widescreen LED-lit IPS Display
- 8GB Dual Channel Memory & 256GB SSD
- Up to 15-hours of battery life.Adapter: 65 W
- Windows 10 Home
Features:
Specs:
Height | 2.3 Inches |
Length | 4.4 Inches |
Weight | 0.35 Pounds |
Width | 3.5 Inches |
2. BYKES Magnets 1/2" Round Disc with Adhesive Backing - 250 Pcs
Light duty flexible style magnet formula.Good for holding papers onto file cabinets or refrigerators.These inexpensive disc magnets are great for many craft uses.Size is about 1/2" diameter x a very slim 1/32" thick.250 pieces for one low price!
Specs:
Color | Black |
Height | 1.5 Inches |
Length | 2 Inches |
Weight | 0.25 Pounds |
Width | 1.5 Inches |
3. United Scientific Eddy Current Demonstrator
Simple but effective device for demonstrating Lenz's law using eddy currents induced in the wall of a copper tube by a falling magnetIt consists of a 12-inches long copper tube and two apparently identical metal slugs with rubber end capsOne slug is plain steel and falls through the copper tube quic...
Specs:
Number of items | 1 |
🎓 Reddit experts on science education magnetism kits
The comments and opinions expressed on this page are written exclusively by redditors. To provide you with the most relevant data, we sourced opinions from the most knowledgeable Reddit users based the total number of upvotes and downvotes received across comments on subreddits where science education magnetism kits are discussed. For your reference and for the sake of transparency, here are the specialists whose opinions mattered the most in our ranking.
> Is that also true for unmagnetized neodymium?
Yup! For almost all magnetic materials the permeability will be the same whether or not they are "set". One exception is in extremely high quality transformer steel- this stuff is specially rolled so its anisotropic. It's flattened into strips, which squishes its crystal structure into very long, thin needles. The atoms inside the needles can flip around easily, but they can only line up in the direction of the needles. They swap back and forth very, very easily, but they can't do the same for side-to-side fields. Once they're set they have great permeability in one direction and mediocre permeability in other directions.
Neodymium magnets have essentially the same structure- very long needle-like magnetic sections, but they're extremely resistant to being turned around. Even the individual neodymium atoms (which are the field-carrying component) are essentially locked in place by their chemical bonds. Iron atoms on the other hand can rotate almost freely; that property is the same one that makes iron (and metals in general) ductile, since the atoms can move with respect to each other.
One of the most important parts of making neodymium magnets is actually an annealing phase, where the magnet is heated for a very long time to line up the magnetic sections. This also has to be done in a low-oxygen atmosphere, and is one of the big reasons neodymium magnets are expensive. Without annealing the magnetic fields cancel each other out to a large degree, so an un-set magnet can have an even lower permeability than a set magnet- but a set neodymium magnet will have almost zero permeability in directions other than the magnetic field.
> I bought some neodymium magnets several years ago to play with and they are amazingly strong.
I love them! Pick up some ferrofluid too, but be careful as it will stain anything practically permanently. The color comes from nanoscale (<10 nm) iron particles that will just nestle into cracks on anything less porous than glass, which is essentially everything. Ferrofluid got me the brainwave of understanding why iron particles line up the way they do.
Another cool thing is that we're finding requirements for even stronger magnets! In very high-end motors, it's becoming more common to use "funnels" of electrical steel to concentrate the power of magnets even farther. Pairs of magnets are tilted to form a triangle with the surface of the rotor- the flux is forced down into a smaller area, making it even stronger! That gives motors more torque for their size.
I hadn't, but this is an awesome idea. I don't know that I'd go the route of cutting the feet off of their bases and re-gluing them on a new base. I've seen plenty of videos with people doing this, but I've never been comfortable with the idea.
With that said, your reply reminded me of these: BYKES Magnets 1/2" Round Disc with Adhesive Backing
Maybe I'll try this. They're cheap enough, thin and easy to apply.
How long is this thing? Can the magnet be slid through it?
If yes, I might be a "eddy current demonstrator"
Something like this:
Medtronic ICD Detection Donut Magnet (Pack of 2) https://www.amazon.com/dp/B01EIGYFPC/ref=cm_sw_r_cp_apa_yq3YBb09BJ7Y1
https://www.amazon.com/dp/B008H40M72/ref=cm_sw_r_cp_api_i_qyh2BbA37H0ZN
It’s not stupid expensive. About $20 for 2oz, and you wouldn’t need much for a more modestly sized device.
That business exists! It's called Amazon!
https://en.wikipedia.org/wiki/Ferrofluid
https://www.amazon.com/CMS-Magnetics-Ferrofluid-Magnets-Dropper/dp/B008H40M72
cheaper ferrofluid: https://www.amazon.com/CMS-Magnetics-Ferrofluid-Magnets-Dropper/dp/B008H40M72
Here
Thank you. This led me to Randomly Oscillating Magnetic Pendulum (ROMP). It's an obscure toy from US. Looks good but it's not available in Europe. Still might order it.
Apart from this one I found nothing else. Just this one but doesn't swing in the same way.
So no choice whatsoever. From what I found at least.