Can Plasma Be Polarized and How Does It Interact with Electric Currents?

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SUMMARY

This discussion focuses on the polarization of plasma and its interaction with electric currents. Plasma, as a state of matter, consists of ionized gas where electrons are separated from nuclei, making it a conductor that responds to magnetic fields. It is established that heating a wire typically increases its resistance, leading to a decrease in current, although superconductors exhibit the opposite behavior at low temperatures. Additionally, free electrons in a magnetic field experience the Lorentz force, affecting their movement based on the polarity of the magnets involved.

PREREQUISITES
  • Understanding of plasma physics and its properties
  • Knowledge of electric current and resistance in conductors
  • Familiarity with the Lorentz force and its implications
  • Basic principles of superconductivity and its temperature dependencies
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  • Research the properties of plasma and its behavior in magnetic fields
  • Study the relationship between temperature and resistance in conductors
  • Explore the principles of superconductivity and its applications
  • Learn about the Lorentz force and its effects on charged particles in magnetic fields
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Students and professionals in physics, electrical engineering, and materials science, particularly those interested in plasma behavior, electric current dynamics, and superconductivity.

KingofSpace
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Hello all,
I've been examining plasma physics and electricity (or at least trying to with a search engine) and have a few questions.

1. Can plasma be polarized? For example, if a magnet is placed with the "north" polarity near a magnet, will it maintain that shape?
2. If a wire carrying an electric current is heated, will it produce a higher current (more electricity)?
3. What happens to free electrons when they are confined in between two magnets of differing polarities? Same polarities?

These are not homework questions, just questions of my own i'd like answered.
 
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1. Can plasma be polarized? For example, if a magnet is placed with the "north" polarity near a magnet, will it maintain that shape?
Which magnet? Which shape?
2. If a wire carrying an electric current is heated, will it produce a higher current (more electricity)?
A wire does not "produce" a current. Most wires increase their electric resistance if you heat them, so the current will usually drop if you heat the wire. There are some exceptions, however, where resistance drops with temperature.
3. What happens to free electrons when they are confined in between two magnets of differing polarities? Same polarities?
They are not confined in anything. And they are not free, as they are in a magnetic field. They will feel the Lorentz force.
 
"if a magnet is placed with the "north" polarity near a magnet, will it maintain that shape?" "

What do you mean by this?
Well a plasma is a state of matter in which a gas is ionized that means that the electrons are now separate from the nucleus which turns the plasma into a conductor and also it reacts strongly to magnetic fields and the flow of plasma creates it's own magnetic field because the electrons have a negative charge and the nucleus a positive one.

http://en.wikipedia.org/wiki/State_of_matter

have a look at that , kinda explains the basics.

As mfb said wires usually increase resistance when heated so for a given current the current will drop and some of it will be dissipated as heat.Remember that basically under normal conditions every conductor like an ordinary wire or pcb circuit or anything else is a resistor , small one but still it has resistance and that resistance drops the current and heats up the conductor.
That's why they need all that liquid nitrogen etc cooling for superconductors.But that has to do with the atomic substructure of the wire under these temperatures that makes it a ideal conductor.If you want to see that read up on google about superconductors.
 

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