Exploring the "Generalized" Angular Momentum of Particles

In summary, the concept of "generalized" angular momentum of particles involves extending the traditional definition of angular momentum to include non-rigid systems and particles with intrinsic spin. This allows for a more comprehensive understanding of the dynamics of particles in motion and has important applications in fields such as quantum mechanics and fluid dynamics. The generalized angular momentum can be broken down into components, including orbital angular momentum and spin angular momentum, and is conserved in isolated systems. Overall, exploring the generalized angular momentum of particles has led to a deeper understanding of the fundamental laws governing the behavior of particles in motion.
  • #1
snoopies622
846
28
I'm looking at McMahon's Quantum Mechanics Demystified and in the angular momentum chapter he introduces "generalized" angular momentum J, which is the sum of a particle's orbital angular momentum and its spin.

It seems strange to me that these two things can be simply added together. Isn't "spin" only an indication of a subatomic particle's built in magnetic moment, completely unrelated to angular momentum in a classical sense?
 
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  • #2
No, "spin" really is angular momentum. Changes in "spin" orientation of a large number of electrons in an object can affect macroscopic rotational motion, similarly to the way you can change your rotational motion while sitting on a rotating stool by holding a spinning wheel in your hands and "flipping" it over. See the Einstein-de Haas effect:

http://www.ptb.de/en/publikationen/jahresberichte/jb2005/nachrdjahres/s23e.html

https://www.physicsforums.com/showthread.php?t=58810

I still remember thinking "wow!" when I first read about this in the Feynman Lectures on Physics about forty years ago.
 
  • #3
Spin and classical angular momentum are parts of a grand scheme known as "representation of rotation group". Its just classical angular momentum we see usually since classical angular momentum is that part of "representation of rotation group" that acts on vectors.
 
  • #4
jtbell said:
No, "spin" really is angular momentum. Changes in "spin" orientation of a large number of electrons in an object can affect macroscopic rotational motion, similarly to the way you can change your rotational motion while sitting on a rotating stool by holding a spinning wheel in your hands and "flipping" it over. See the Einstein-de Haas effect:

http://www.ptb.de/en/publikationen/jahresberichte/jb2005/nachrdjahres/s23e.html

https://www.physicsforums.com/showthread.php?t=58810

I still remember thinking "wow!" when I first read about this in the Feynman Lectures on Physics about forty years ago.

That is interesting and brought back an ancient memory of a discovery made by a friend whilst fiddling around with a strong magnet .He suspended a knife from its point from the magnet and then spun the knife.It spun,slowed down and eventually stopped,which was no surprise,but then it started spinning for a while in the opposite direction which was a surprise.
 
  • #5
Hey, thanks. Can electron orbital angular momentum also be made noticable on a macroscopic scale?
 
  • #6
Just thought I'd give this a bump before it slips over the horizon. I'm hoping someone knows the answer to my follow-up question in box #5 above. Thanks. :smile:
 
  • #7
Hrmm. I'm not sure snoopies. I know Spintronics deals with issue like that in order to put them to use in semiconductors thought.
 
  • #8
..otherwise, how do we know that it really represents angular momentum as well?
 
  • #9
I believe we can measure it at.
 

FAQ: Exploring the "Generalized" Angular Momentum of Particles

What is "generalized" angular momentum of particles?

The "generalized" angular momentum of particles is a concept in physics that takes into account not only the physical rotation of a particle, but also its internal structure and motion. It is a more comprehensive measure of a particle's angular momentum than traditional angular momentum, which only considers its physical rotation.

How is the "generalized" angular momentum of particles calculated?

The "generalized" angular momentum of particles can be calculated using the total angular momentum equation, which takes into account both the physical rotation and internal motion of the particle. It is also possible to calculate the "generalized" angular momentum using other equations, depending on the specific situation and variables involved.

What is the significance of exploring the "generalized" angular momentum of particles?

Studying the "generalized" angular momentum of particles can provide a deeper understanding of the behavior and properties of particles in motion. It can also help explain certain phenomena that cannot be fully explained by traditional angular momentum calculations, such as the motion of subatomic particles.

How does the concept of "generalized" angular momentum relate to other principles in physics?

The concept of "generalized" angular momentum is closely related to other principles in physics, such as conservation of angular momentum and the concept of torque. It can also be linked to the concept of rotational inertia, which is the resistance of an object to changes in its rotational motion.

Are there any practical applications of studying the "generalized" angular momentum of particles?

There are many practical applications of understanding the "generalized" angular momentum of particles, particularly in fields such as quantum mechanics and astrophysics. It can also have practical implications in engineering, where precise calculations of angular momentum are necessary for designing and building machines and structures.

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