![X 上的 MathType:「In #Quantum #Mechanics we can use the #commutator of two operators to know if the observables associated to those #operators are compatible, in which case we can find a common # X 上的 MathType:「In #Quantum #Mechanics we can use the #commutator of two operators to know if the observables associated to those #operators are compatible, in which case we can find a common #](https://pbs.twimg.com/media/FPEwHFQXsAMa4hU.jpg:large)
X 上的 MathType:「In #Quantum #Mechanics we can use the #commutator of two operators to know if the observables associated to those #operators are compatible, in which case we can find a common #
![SOLVED: Mechanics commutation relations in quantum mechanics are given by [z, Pv] = [u, P-] = 0, [y, Pv] = ih, and [2, P:] = i. The operator J = TPv-YPz represents SOLVED: Mechanics commutation relations in quantum mechanics are given by [z, Pv] = [u, P-] = 0, [y, Pv] = ih, and [2, P:] = i. The operator J = TPv-YPz represents](https://cdn.numerade.com/ask_images/220b82a7135042d2901ee8e0911432b2.jpg)
SOLVED: Mechanics commutation relations in quantum mechanics are given by [z, Pv] = [u, P-] = 0, [y, Pv] = ih, and [2, P:] = i. The operator J = TPv-YPz represents
![Tamás Görbe on X: "Commutation relations like this form the basis of quantum mechanics. This example expresses the connection between position (X) and momentum (P): [X,P]=XP-PX=ih/2π, where h is Planck's constant. It Tamás Görbe on X: "Commutation relations like this form the basis of quantum mechanics. This example expresses the connection between position (X) and momentum (P): [X,P]=XP-PX=ih/2π, where h is Planck's constant. It](https://pbs.twimg.com/media/E_o9UrsXsAQCKX1.png:large)
Tamás Görbe on X: "Commutation relations like this form the basis of quantum mechanics. This example expresses the connection between position (X) and momentum (P): [X,P]=XP-PX=ih/2π, where h is Planck's constant. It
![SOLVED: The components of the quantum mechanical angular momentum operator satisfy the following commutation relations [L,Ly]=ihL [Ly,L]=ihL. [Lr,L]=ihiy I0 [LL]=heyL Further identities include [L]=thek [L1,P]=theiykpk Verify these relations by direct ... SOLVED: The components of the quantum mechanical angular momentum operator satisfy the following commutation relations [L,Ly]=ihL [Ly,L]=ihL. [Lr,L]=ihiy I0 [LL]=heyL Further identities include [L]=thek [L1,P]=theiykpk Verify these relations by direct ...](https://cdn.numerade.com/ask_images/185e23e173924da69c5efc7f3f47440c.jpg)
SOLVED: The components of the quantum mechanical angular momentum operator satisfy the following commutation relations [L,Ly]=ihL [Ly,L]=ihL. [Lr,L]=ihiy I0 [LL]=heyL Further identities include [L]=thek [L1,P]=theiykpk Verify these relations by direct ...
![complex analysis - Trouble Deriving the Canonical Commutation Relation from the Product Rule - Mathematics Stack Exchange complex analysis - Trouble Deriving the Canonical Commutation Relation from the Product Rule - Mathematics Stack Exchange](https://i.stack.imgur.com/lM2Nl.png)