Of electric charge, not magnetic.JuicyFruit123 said:Electrons are negative monopoles
Basically the electron as a particle is a negatively charged monopole. But it also has a magnetic field which creates a positive and negative charge on either end of the electron. Shouldn't the two interfere?Dale said:I don’t understand why you think being a monopole would interfere with having a magnetic field. Can you explain what bothers you about it?
An electric monopole. Not magnetic.JuicyFruit123 said:Basically the electron as a particle is a negatively charged monopole.
Magnetic fields don't create electric charge. They create magnetic poles. The reason the electron has a magnetic field is that it has an electric charge and nonzero spin; this creates the magnetic field.JuicyFruit123 said:it also has a magnetic field which creates a positive and negative charge on either end of the electron.
Not at all; as above, they are all part of the same phenomenon, that the electron has an electric charge and nonzero spin.JuicyFruit123 said:Shouldn't the two interfere?
This part is simply a mistake. The magnetic dipole moment does not produce an electric dipole moment.JuicyFruit123 said:a magnetic field which creates a positive and negative charge on either end of the electron.
Not quite, although that’s a fine classical picture for a spinning charged object. The catch is that the quantum mechanical property called “spin” has nothing to do with classical rotation/spinning; the electron isn’t spinning around any axis. Instead the spin and magnetic moment are like the mass or the charge - just there because that’s how electrons are.JuicyFruit123 said:So the electron has a negative charge and when that charge moves (spin) it creates the magnetic field?
As @Nugatory said, that classical viewpoint isn't really correct for a quantum object like an electron; but the basic connection between electric charge, spin, and a magnetic field is still valid.JuicyFruit123 said:So the electron has a negative charge and when that charge moves (spin) it creates the magnetic field?
And a lot of people called native Americans "Indians" (some still do) even though they're not from India.Nugatory said:the name stuck, somewhat like the way that some islands in the Caribbean are still called the “Indies” even though they have nothing to do with India.
Yes, and for most Americans that's the most top-of-mind example... I started with that one, then thought that the geographical example might play better worldwide. (I expect that we could have an entire long and entertaining GD thread about similar historical malaprops)jtbell said:And a lot of people called native Americans "Indians" (some still do) even though they're not from India.
An electron charge is a fundamental property of an electron that determines its interactions with other particles and fields. It is a negative charge with a magnitude of 1.602 x 10^-19 coulombs.
When an electron moves, its electric charge creates a magnetic field around it. This is due to the interaction between the electron's charge and its spin, which causes the electron to act like a tiny magnet.
Electron spin is a quantum mechanical property of an electron that describes its intrinsic angular momentum. It is often visualized as the electron spinning on its axis, but it is actually a complex quantum phenomenon that cannot be fully explained with classical physics.
The spin of an electron determines its magnetic moment, which is a measure of the strength of its magnetic field. The magnetic moment is directly proportional to the electron's spin, so a higher spin means a stronger magnetic field.
Yes, an electron's spin direction can be changed through interactions with other particles or fields. This is known as spin flip or spin polarization. These changes in spin can also affect the electron's magnetic field and its behavior in a magnetic field.