At the grocery store today, I noticed the delicious cakes in the bakery. A thought came to mind about how we often associate symmetry with perfection. A cake is considered beautiful if comes out of the oven in the form of a perfect circle, one side is not more lop-sided than the other, there is smoothness and consistency in the frosting. You could turn the cake upside down and it would maintain the same symmetrical shape. But there are times when we opt for asymmetry, such as when "Happy Birthday!" is written on the cake. The words would be illegible if it were symmetrical, so asymmetry is favorable.
CP violation is a violation of the conservation laws defined by charge conjugation and parity charge. The violation is seen in radioactive substances, such as uranium. I wonder if nuclear forces are so destructive because it has properties so counter to matter that does not exhibit CP violation. We have seen how radiation and atomic bombs are so destructive on humans and existence. Perhaps the reason why the affect of radiation is so difficult to treat in humans is because we do not have a secure understanding of how CP violation works and how to reverse it.
I think there are connections between sacred geometry and physics. It is interesting to think about sacred geometry in representing a "higher dimensional math". Sacred geometry enables an understanding and access to the energy flow of abstract concepts, such as time and dimensions. The I-Ching is a great example of how time can be a heightened observance of patterns of change, a quantum understanding of how change in one aspect will affect another aspect, which can seemingly predict the future.
"It is interesting to think about sacred geometry in representing a "higher dimensional math". Sacred geometry enables an understanding and access to the energy flow of abstract concepts, such as time and dimensions. "
ReplyDeleteWhat a lovely way to contextualize math! If only high school classes were taught with such a lens!