The physical meaning of a symmetry

In summary, the physical meaning of SU(3) and SU(2) is that they represent symmetries in the laws of physics, where rearranging the positions of particles results in the same outcome. Similarly, U(1) is connected to the polarization of light and the Lorentz group (O(3,1)) is related to the rotation of massless fields in space-time.
  • #1
Planck const
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I know that the physical meaning of SU3 and SU2 - you can change the places of the quarks or/and leptons and you will get the same results.

What is the physical meaning of U1, and O3,1 (Lorentz group if I am not wrong)?

I know U1 is connect with the Polarization of the light.

Thanks very much to the people who will answer... (sorry about my bad english)
 
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  • #2
It seems many of the laws of physics originate in symmetries.

You might find Nother's Theorem of interest:

http://en.wikipedia.org/wiki/Nöther's_theorem

where different symmetries are shown to underly different conservation "laws".
 
  • #3
U(1) is isomorphic to SO(2), the 2D rotation group.

The connection with the polarization of light is that the polarization of massless fields in n space-time dimensions lives in the (n-2) transverse dimensions, in this case, 2. So the transverse-dimension rotation group in 4D is SO(2).

The Lorentz group is indeed SO(3,1) -- the numbers are because the space-time metric's signature is +++- or ---+, depending on the convention.
 

1. What is the physical meaning of a symmetry?

The physical meaning of a symmetry is the preservation of certain characteristics or properties of a system under a transformation. A symmetry can be a reflection, rotation, translation, or any other transformation that leaves the system unchanged.

2. Why is symmetry important in science?

Symmetry is important in science because it allows us to simplify complex systems and understand their underlying principles. By identifying symmetries, we can make predictions and draw conclusions about physical laws and phenomena.

3. How do symmetries relate to conservation laws?

Symmetries and conservation laws are closely related. In physics, symmetries are often associated with conserved quantities, such as energy, momentum, and angular momentum. This is known as Noether's theorem.

4. Can symmetries be broken?

Yes, symmetries can be broken. This occurs when a system does not exhibit the same properties under a transformation. For example, in a magnet, the symmetry of rotational invariance is broken because the direction of the magnetic field is favored over other directions.

5. How do symmetries help us understand the universe?

Symmetries are fundamental to our understanding of the universe. They allow us to describe and predict the behavior of physical systems, from the microscopic world of atoms to the immense scale of the cosmos. Symmetries also play a crucial role in the development of theories, such as the Standard Model of particle physics.

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