How does water respond to repelling magnets and vice versa?

AI Thread Summary
When magnets repel each other across a plane, clean water flowing over the plane is largely unaffected, as ordinary water does not significantly interact with magnetic fields. However, if the water contains iron, it can disrupt the magnetic field between the magnets. Water is weakly repelled by strong magnets, which may alter its flow, potentially preventing it from moving between the magnets. The discussion also references magnetohydrodynamic effects, which require polarized water to observe significant interactions. Overall, while water and magnets can influence each other, the effects are minimal under typical conditions.
lorp
an old 'newbie' with first post. excuse my physics knowledge it has been a long time since college.
>>>QUESTION below<<<
Magnets repel (each other).
If repelling 'each other' through a plane (ex. piece of glass) and water is allowed to flow over the plane.
WHAT will happen to the water when approaches magnets that are repelling? likewise what will happen to repelling magnets?

I would love thought/answer.
Thanks
 
Last edited by a moderator:
Physics news on Phys.org
Welcome Lorp!

Just for clarity, when you say "magnets repel", do you mean two magnets that repel each other, or a set of magnets that repel water?
 
claification:

magnets repelling each other.
 
As long as the water is clean, they should have almost no effect at all on one another. In the town where I grew up, the water that came out of the tap had a lot of iron in it, and that would disrupt the magnetic field between two magnets, but ordinary water shouldn't effect it at all.
 
Will the water flow between the magnets?
 
yes.
 
If I recall correctly, water is very weakly repelled by magnets, so with sufficiently powerfull magnets, you're likely to see some effects of the water. (Possibly including no water flowing between the magnets.)

There is a famous demonstration where a frog is floated above a powerfull electromagnet:

http://www.hfml.sci.kun.nl/froglev.html
 
Last edited by a moderator:
Flying Frogs. Thanks!
 
And there's also the phenominon of magnetohydrodynamic drive, but I believe that in order for this to work the water has to be polarised first before passing through the magnetic field.
 
Last edited:
  • #10
All normal matter (electrons, protons, and neutrons) interacts with a magnetic field. This is how an MRI works. There is a very intense magnetic field (~10 T) to polarize the protons. Then, there is a pulsed gradient (orders of magnitude less) that disturbs the polarization. Protons in particular configurations respond to this step excitation are different frequencies. Hydrogen, if I remember correctly, since it has only one proton, has a strong appearance, so regions with more water show up more strongly.
 

Similar threads

Field Energy of Permanent Magnets vs. Magnetic Monopoles
Replies
27
Views
3K
How does movement of an electric charge create a magnetic field?
Replies
8
Views
6K
How Do Vertical and Horizontal Magnetic Repulsion Forces Compare?
Replies
1
Views
13K
Hovering magnet over superconductor/superconductor over magnet
Replies
2
Views
3K
I'm too uneducated to disprove my magnetic mechanical idea.
Replies
4
Views
2K
Magnetic Forces on Current-Carrying Wires: Attraction & Repulsion
Replies
5
Views
45K
Force of pressurized water exiting a hose or pipe?
Replies
20
Views
10K
Time delay/magnetic fields/coloumb fields.
Replies
18
Views
12K
Magnetism and Attraction: Investigating the Properties of Magnets
Replies
2
Views
4K
Plumbing Compressed air powered water pressure
Replies
39
Views
14K

Hot Threads

Recent Insights

Back
Top