Why wire experiences force in magnetic field, when net charge is zero.

AI Thread Summary
A current-carrying wire experiences a force in a magnetic field due to the motion of electrons, despite having a net charge of zero. This phenomenon is explained by the Lorentz force, which describes how moving charges interact with magnetic fields. The current creates its own magnetic field that interacts with the external magnetic field, resulting in a force on the wire. A common misconception is that a net charge of zero implies a zero net current density, but electrons can move past stationary protons without changing the overall charge balance. Understanding these interactions clarifies why the wire experiences a force when placed in a magnetic field.
ZedCar
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Homework Statement



In a current-carrying wire, the total net charge in the metal is zero. Why does the wire experience a force when placed in a magnetic field?


Homework Equations





The Attempt at a Solution



The reason for the force is the motion of the electrons, not their charge as such.
i.e. it's a relativistic effect due to their motion.

The current traveling in the wire creates its own magnetic field which interacts with the external one. Depending on the relative angles of the fields, there will be a resulting force acting on the wire.
 
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ZedCar said:
In a current-carrying wire, the total net charge in the metal is zero. Why does the wire experience a force when placed in a magnetic field?

The current traveling in the wire creates its own magnetic field which interacts with the external one.

uhh? do magnetic fields interact? :confused:

use the force! :biggrin:
 
tiny-tim said:
uhh? do magnetic fields interact? :confused:

use the force! :biggrin:

Do you mean, just go with the first part?

i.e. The reason for the force is the motion of the electrons, not their charge. It's a relativistic effect due to their motion.
 
no, i mean the lorentz force! :smile:

(is there any other? o:))
 
A common misconception people have is that if the net charge is zero, then that implies the net current density is also zero. But if you think about it for a moment, you'll see that this is not true; you can have electrons rushing by static protons at some net drift speed and still have the total number of electrons and protons in any unit of volume in the wire be equal to zero.

Is this the issue here, or are you asking why it is that a net current couples to a magnetic field in the same way that an electric field couples to a net charge?
 
tiny-tim said:
no, i mean the lorentz force! :smile:

(is there any other? o:))

Do you mean none of my original answer in the first post is particularly good and the reason is simply due to the Lorentz Force?
 
erm … yes :redface:
 
Okay
 

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