- #1
wdlang
- 307
- 0
i really can not understand it
humanino said:Hi,
are you referring to symmetry breaking ? A symmetry can be dynamically or spontaneously broken.
Dynamical symmetry refers to the symmetry that is present in the motion or behavior of a system. This means that certain properties or characteristics of the system remain unchanged as it undergoes a transformation or change in time.
Geometrical symmetry, also known as static symmetry, refers to the symmetry that is present in the physical shape or structure of an object. This means that the object can be divided into identical parts or sections that are mirror images of each other.
The main difference between dynamical and geometrical symmetry is the aspect of time. Dynamical symmetry deals with the symmetry present in the motion or behavior of a system, while geometrical symmetry deals with the symmetry present in the physical shape or structure of an object.
Yes, a system can have both dynamical and geometrical symmetry. For example, a spinning top has both types of symmetry - it maintains its shape (geometrical symmetry) while it rotates (dynamical symmetry).
Understanding the difference between dynamical and geometrical symmetry is important for scientists because it helps them to better conceptualize and analyze physical systems. It also allows for a more comprehensive understanding of the laws and principles that govern the behavior and structure of these systems.