![SOLVED: Starting with the canonical commutation relations for position and momentum [ri, Pi] = ih̄δij and [ri, rj] = [Pi, Pj] = 0, work out the following commutators: [Lz, x] = iħy; [ SOLVED: Starting with the canonical commutation relations for position and momentum [ri, Pi] = ih̄δij and [ri, rj] = [Pi, Pj] = 0, work out the following commutators: [Lz, x] = iħy; [](https://cdn.numerade.com/ask_images/91200537a43b4ed99f8cc82b5ab63cf7.jpg)
SOLVED: Starting with the canonical commutation relations for position and momentum [ri, Pi] = ih̄δij and [ri, rj] = [Pi, Pj] = 0, work out the following commutators: [Lz, x] = iħy; [
![Table 1 from Classical Systems and Representations of (2+1) Newton-Hooke Symmetries | Semantic Scholar Table 1 from Classical Systems and Representations of (2+1) Newton-Hooke Symmetries | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/cf7dc1b88e6c07d98bc484457d47294c7b09d802/22-Table1-1.png)
Table 1 from Classical Systems and Representations of (2+1) Newton-Hooke Symmetries | Semantic Scholar
![homework and exercises - Commutation relation for Hamiltonian for fermion and boson - Physics Stack Exchange homework and exercises - Commutation relation for Hamiltonian for fermion and boson - Physics Stack Exchange](https://i.stack.imgur.com/hTV3i.png)
homework and exercises - Commutation relation for Hamiltonian for fermion and boson - Physics Stack Exchange
![Commutation Relations, Normal Ordering, and Stirling Numbers : Mansour, Toufik, Schork, Matthias: Amazon.fr: Livres Commutation Relations, Normal Ordering, and Stirling Numbers : Mansour, Toufik, Schork, Matthias: Amazon.fr: Livres](https://m.media-amazon.com/images/I/41VEsQndYYL._AC_UF1000,1000_QL80_.jpg)