Spin angular momentum of electron

dev70
Messages
58
Reaction score
0
hi pf, i got following questions in my mind while reading about the spin angular momentum of an electron.
1. From rotational dynamics we know that to have angular momentum a body must necessarily rotation or motion? so does an electron rotates as it has spin angular momentum or does it vibrates?

2. And if it does, won't it radiate ?
 
Physics news on Phys.org
dev70 said:
hi pf, i got following questions in my mind while reading about the spin angular momentum of an electron.
1. From rotational dynamics we know that to have angular momentum a body must necessarily rotation or motion? so does an electron rotates as it has spin angular momentum or does it vibrates?

2. And if it does, won't it radiate ?

Spin is a quantum mechanical phenomenon. It doesn't have a classical analogue, so you can't treat the electron as if it's rotating. In fact, if we naively treated the angular momentum classically, we'd find that the electron (if it were spherical) would have a tangential velocity many times the speed of light -- obviously absurd!

The name "spin" itself is therefore misleading. Spin is simply an intrinsic degree of freedom that we can't intuitively understand.
 
ok.i got it. so does that mean an electron is a rest always with no motion. if we have a look at Hisenberg's Uncertainty Principle then i think we can say that the electron is always in a motion?? could we?
 
dev70 said:
ok.i got it. so does that mean an electron is a rest always with no motion.

No, it doesn't imply that.

dev70 said:
if we have a look at Hisenberg's Uncertainty Principle then i think we can say that the electron is always in a motion?? could we?

Precisely. For the electron to be at rest, it would necessarily have a well-defined position (x=x_rest). But it must also necessarily have a well-defined momentum since it is at rest (v=0), and this violates the uncertainty relation.
 
Then a electron is always in a kind of motion. If we just take up a thought experiment where an electron is moving just in an empty space i.e., vacuum should it radiate?
 
dev70 said:
Then a electron is always in a kind of motion. If we just take up a thought experiment where an electron is moving just in an empty space i.e., vacuum should it radiate?

The problem is that you're applying classical electromagnetism to a particle that doesn't behave classically. Hopefully someone who knows QED will step in at this point and maybe elaborate a little, but I can't really give a deeper reason than that at the moment.
 
Yaa. You are right. With Classical physics i am getting confused. I need quantum mechanism. I did a brief search and i think i have got it.
 

Similar threads

B How to show that particle spin includes angular momentum?
Replies
14
Views
2K
B Spin And Angular Momentum of Large Objects
Replies
2
Views
1K
B Quantum teleportation of usable information
Replies
19
Views
2K
B Electron angular momentum, gyroscope?
Replies
14
Views
1K
I Spin, Angular Momentum, Momentum, Energy & NRQM
Replies
1
Views
1K
I Do measurements modify angular momentum and energy?
Replies
17
Views
2K
I What do you need to establish that spin is conserved?
Replies
3
Views
1K
I Angular momentum and spin unit
Replies
8
Views
2K
B Polarization of a single photon
Replies
10
Views
4K
I Participatory Anthropic Principle
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top