BRUh explain this.... https://www.nbcnews.com/news/us-new...kitchen-concerned-it-would-blow-away-n1049676 LIKE WHY EVEN LMAO!
Well here we can see a small car, approximately weighing 1,500 pounds. It seems to be in the kitchen area of this apartment. Ill try to explain this, the algebraic dress of quantum mechanics hides a beautiful geometrical lingerie that I will try to uncover during the talk. First of all, I will introduce the main features of quantum mechanics and I will outline how we may think of it as a non-commutative version of classical probability theory, that is, how to look at quantum states as non-commutative versions of probability distributions. Then, we will explore the geometry of the space S of quantum states by looking at how the complex general linear group GL(n, C) and the unitary group U(n) act on S, partitioning it into the disjoint union of orbits.We will discover the beautiful and highly rich geometry of the manifolds of isospectral quantum states - the oribits of U(n) - and use it as a point of departure in order to look for geometrical structures on the manifold of invertible quantum states - the orbit of GL(n,C) which is the primary object of quantum information theory. Therefore, IT FITS!