![SOLVED: a) Show that the Dirac Hamiltonian commutator with angular momentum is given by: L = r x p = -iħ(r x ∇) = [H, L] = -ħ^2c^2a x ∇ b) Show SOLVED: a) Show that the Dirac Hamiltonian commutator with angular momentum is given by: L = r x p = -iħ(r x ∇) = [H, L] = -ħ^2c^2a x ∇ b) Show](https://cdn.numerade.com/ask_images/51f03ca807c24bb6b1f9ea4dd2177257.jpg)
SOLVED: a) Show that the Dirac Hamiltonian commutator with angular momentum is given by: L = r x p = -iħ(r x ∇) = [H, L] = -ħ^2c^2a x ∇ b) Show
![Introduction to average Hamiltonian theory. I. Basics - Brinkmann - 2016 - Concepts in Magnetic Resonance Part A - Wiley Online Library Introduction to average Hamiltonian theory. I. Basics - Brinkmann - 2016 - Concepts in Magnetic Resonance Part A - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/d4f623e3-bc1a-469e-9a2b-cfe29e019e56/cmra21414-gra-0038.png)
Introduction to average Hamiltonian theory. I. Basics - Brinkmann - 2016 - Concepts in Magnetic Resonance Part A - Wiley Online Library
![SOLVED: 2) Dirac notation and the Hamiltonian operator: Consider the Hamiltonian H of a particle in a one dimensional problem defined by: H=(1)/(2 m) P^2+V(X) where X and P are the position SOLVED: 2) Dirac notation and the Hamiltonian operator: Consider the Hamiltonian H of a particle in a one dimensional problem defined by: H=(1)/(2 m) P^2+V(X) where X and P are the position](https://cdn.numerade.com/ask_images/828ea3b782c747189f7f72e57681e5d3.png)
SOLVED: 2) Dirac notation and the Hamiltonian operator: Consider the Hamiltonian H of a particle in a one dimensional problem defined by: H=(1)/(2 m) P^2+V(X) where X and P are the position
![SOLVED: Question 6 [9 marks] The Dirac Hamiltonian can be written in the following matrix form: H = (o.p o.p) 1. The commutator of the Dirac Hamiltonian with the orbital angular momentum SOLVED: Question 6 [9 marks] The Dirac Hamiltonian can be written in the following matrix form: H = (o.p o.p) 1. The commutator of the Dirac Hamiltonian with the orbital angular momentum](https://cdn.numerade.com/ask_images/530b75c26f6c40d4b2947f13bca95d39.jpg)
SOLVED: Question 6 [9 marks] The Dirac Hamiltonian can be written in the following matrix form: H = (o.p o.p) 1. The commutator of the Dirac Hamiltonian with the orbital angular momentum
![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
![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/kJQlZ.png)