Particle Spin: Definition & Meaning

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What is it? And What does it mean when we say s=1, 1/2,...?



Thanx in advance:smile:
 
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jtbell said:
Try this for a start:

http://en.wikipedia.org/wiki/Spin_(physics)

If you still have questions after reading this, feel free to come back and ask! :smile:

Thanx, but I read it before.:confused: I just can't get it how it effects on reactions. I mean what's the difference btw a particle with s= 1/2 and a particle with s=1?
 
Em!ly said:
What is it? And What does it mean when we say s=1, 1/2,...?
Thanx in advance:smile:

Check out this thread

marlon
 
Em!ly said:
I just can't get it how it effects on reactions.

Probably the most important way that particle spin affects reactions like decays is that the total angular momentum of a system is conserved in any reaction. This means, for example, that a spin-1/2 particle (with angular momentum \frac{\sqrt{3}}{2}\hbar) can't decay into two spin-1/2 particles, because there's no way for the total angular momentum of the particles after the decay to have magnitude \frac{\sqrt{3}}{2}\hbar.
 
Let's assume the decaying particle is at rest in the lab frame. This means it has orbital angular momentum 0 and all its angular momentum is due to spin. But the decaying particles, since they're moving, can have both spin (they have to have) and orbital angular momentum. The trick is that neither of the 2 is conserved, but only the total angular momentum.

I hope you see why JT's assertion is correct.

Daniel.
 
If a spin -1/2 particle and a spin +1/2 particle (both with 0 orbital momentum)come together, will one of them always obtain orbital momentum? The way i imagine this in 2D is by having two circles in front of me spining with an angular momentum of the same magnitude (1/2) but different directions (one + and one -). In this scenario i would expect one of the particles to start orbiting the other, though i think depending on reference point we can always choose to see either one as orbiting the other. In any case it seems one of these objects would acquire orbital momentum, what happens to their angular momentum? Does the angular momentum of both particles change or does it stay the same?
 
Thank you so much!:smile:
 

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