- #1
ArielGenesis
- 239
- 0
you may say I'm a idiots or what, but what is spin.
ArielGenesis said:you may say I'm a idiots or what,
but what is spin.
Tom Mattson said:Wouldn't dream of it.
But in QM there is another type of angular momentum, one that is not a function of coordinates and momenta: It is the spin. It is still an angular momentum (because it has the same units as angular momentum), but it is an intrinsic angular momentum. And despite the name, it has nothing to do with classical "spinning" (as in a spinning top).
wangyi said:i think the reason we consider spin as angular momentum because it is conserved together with angular momentum, and it transforms as angular momentum in roation.
dextercioby said:I'm not going to make that error again,so i'll ask before giving a book reccomandation.Question:What level of physical and mathematical knowledge do you have ?
Daniel.
Tom Mattson said:I think the real reason we consider spin angular momentum is that [itex]J=L+S[/itex] is the generator of rotations. But when a guy asks, "what is spin?" I assume that he won't appreciate that yet.
Thanx Edgardo.I read it and it was really useful for me.Edgardo said:Hello Ariel Genesis,
maybe to give you an intuitive feeling for spin, I recommend reading about the Stern-Gerlach experiment
http://hyperphysics.phy-astr.gsu.edu/hbase/spin.html#c5
In that experiment, a particle with spin 1/2 is shot through a inhomogeneous
magnetic field. What happens? You will notice that a force acts on that particle because the spin interacts with the magnetic field.
You can think of the spin as a tiny little bar magnet, that only has two orientations (for spin s=1/2 like free electrons) in a homogeneous magnetic field along z-direction.
http://hyperphysics.phy-astr.gsu.edu/hbase/spin.html
You see the red arrows? They represent the spin of the electron, but we are interested in the projection to the z-axis.
You have two choices: projection to the upper part of z-axis, so you get [itex]+\frac{1}{2}\hbar[/itex]. In this case you talk about spin-up.
In the other case, where you project to the negative z-axis, you get
[itex]+\frac{1}{2}\hbar[/itex] as projection, and we talk about spin-down.
So when you hear someone talking about spin-up or spin-down, it is just the orientation of the spin (or projection).
There is an effect, called nuclear magnetic resonance, where you can flip the spin orientation.
http://hyperphysics.phy-astr.gsu.edu/hbase/nuclear/nmr.html
In the left picture they use the analogy to the bar magnet.
Spin refers to the intrinsic angular momentum of a particle. This property is a fundamental characteristic of subatomic particles such as electrons, protons, and neutrons. It is often represented by the symbol "s" and can have values of 1/2, 1, 3/2, and so on.
Spin is a quantum mechanical property and cannot be directly measured. Instead, it is inferred from the behavior of particles in experiments. For example, the spin of an electron can be determined by observing the deflection of its path in a magnetic field.
Spin plays a crucial role in our understanding of the subatomic world. It is a fundamental property that helps explain the behavior and interactions of particles. Spin also has practical applications, such as in nuclear magnetic resonance (NMR) imaging and spintronics.
No, the spin of a particle is a constant property and cannot be altered. It is an intrinsic property that is determined by the type of particle. However, the direction of spin can change, for example, when a particle interacts with a magnetic field.
Spin and orbital angular momentum are both types of angular momentum, but they refer to different types of motion. Spin is the intrinsic angular momentum of a particle, while orbital angular momentum is the rotational motion of a particle around an axis. Additionally, spin is a quantum mechanical property, while orbital angular momentum is a classical concept.