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Question:

What can I put between two magnets so that their magnetic fields do not affect one another?

I have two magnets. What can I put between the magnets, so that they will not repel or attract as long as it is between the magnets?

Answer:

easy is a wave of electric powered and magnetic fields. while degree at a mounted region alongside the path of sunshine, the electrical powered field amplitude will bypass up and down in a sinusoidal way. So will the magnetic filed point. an electric powered fee is the two stimulated with the aid of, and is a source of -electric powered fields. while an electric powered fee is located in an electric powered field, it feels a tension. Newtons third regulation (action an reaction) means that on the comparable token - the source of the electrical powered field will experience the comparable (yet opposite tension that the fee is activating upon it. as a result - an electric powered fee can deflect a easy beam. Magnets are the two stimulated with the aid of, and are a source of - magnetic fields. Analogously to the above description related to electric powered expenditures and fields - easy beams could be deflected with the aid of magnets. the version between the particularly some styles of easy (e.g. IR, UV etc) is the how generally does their electric powered and magnetic fields substitute in a 2d. working example, decrease frequencies - IR, greater frequencies - UV Sound is likewise a wave phenomena - yet of a various nature. The magnets in audio gadget have not something to do with the magnetic fields the characterize a easy beam.
Seeing as it says on the side of the tire, what the maximum limit is.not sure what you need help with. You already have the answer available.
Another magnet, of opposite orientation such as to perfectly cancel out the attraction between the first two, so if you have N-----S, insert NS so you have N-NS-S. This is pretty unstable. Alternatively, a large enough piece of superconductor, which excludes magnetic fields from penetrating (Meissner Effect). Unfortunately that's going to have to be at a pretty low temperature, especially if the magnetic fields are strong.
I know of no non-magnetic material that will effectively block a magnetic field. The only magnetic shields I know of are magnetic materials themselves. These will disperse the magnetic field between the magnets, but then, the attraction to the shield from both magnets will still be present. If such a material were to be found, I'm sure a perpetual motion machine would soon follow.

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