![SOLVED: Note: Write the solution of this problem in LaTeX. In the {1+} basis, the normalized state vectors corresponding to spin up and down in the +r and +y directions respectively, are |+⟩ = ( SOLVED: Note: Write the solution of this problem in LaTeX. In the {1+} basis, the normalized state vectors corresponding to spin up and down in the +r and +y directions respectively, are |+⟩ = (](https://cdn.numerade.com/ask_images/edaf97ef1dc84e8baee82bf6c8b40691.jpg)
SOLVED: Note: Write the solution of this problem in LaTeX. In the {1+} basis, the normalized state vectors corresponding to spin up and down in the +r and +y directions respectively, are |+⟩ = (
![math mode - What's the most elegant way to obtain Dirac operators? (slash notation) - TeX - LaTeX Stack Exchange math mode - What's the most elegant way to obtain Dirac operators? (slash notation) - TeX - LaTeX Stack Exchange](https://i.stack.imgur.com/qQHUp.png)
math mode - What's the most elegant way to obtain Dirac operators? (slash notation) - TeX - LaTeX Stack Exchange
MathType - The bra-ket notation devised by Paul Dirac is used in #QuantumPhysics as a way to make linear algebra operations more expressive. Of course, it is nothing but a rewriting of
![formatting - Which of "\langle" and "\left<" should I use in dirac braket and expectation value? - TeX - LaTeX Stack Exchange formatting - Which of "\langle" and "\left<" should I use in dirac braket and expectation value? - TeX - LaTeX Stack Exchange](https://i.stack.imgur.com/yGDfg.png)