![SOLVED: We are considering two spin 1/2 particles, whose Hamiltonian is given by The Hamilton operator for a hydrogen atom in a weak, homogeneous magnetic field B is (ignoring the electron's spin) SOLVED: We are considering two spin 1/2 particles, whose Hamiltonian is given by The Hamilton operator for a hydrogen atom in a weak, homogeneous magnetic field B is (ignoring the electron's spin)](https://cdn.numerade.com/ask_images/3b887b0b7a9843eba76beec008c925a6.jpg)
SOLVED: We are considering two spin 1/2 particles, whose Hamiltonian is given by The Hamilton operator for a hydrogen atom in a weak, homogeneous magnetic field B is (ignoring the electron's spin)
![quantum mechanics - Homework help: Energy levels of two distinguishable electrons - Physics Stack Exchange quantum mechanics - Homework help: Energy levels of two distinguishable electrons - Physics Stack Exchange](https://i.stack.imgur.com/1W5ld.png)
quantum mechanics - Homework help: Energy levels of two distinguishable electrons - Physics Stack Exchange
![SOLVED: Consider an electron at rest in the magnetic field B = B (4) where B is constant. (a) Show that the Hamiltonian matrix in the S representation is H = (5) SOLVED: Consider an electron at rest in the magnetic field B = B (4) where B is constant. (a) Show that the Hamiltonian matrix in the S representation is H = (5)](https://cdn.numerade.com/ask_images/55447cd3d6264b6b83bd5927bd5d0a55.jpg)
SOLVED: Consider an electron at rest in the magnetic field B = B (4) where B is constant. (a) Show that the Hamiltonian matrix in the S representation is H = (5)
![Eigenbros on X: "For those of you who need to brush up on your quantum here's the Hamiltonian for a particle in an electromagnetic field. #physics #science #quantum #QuantumMechanics https://t.co/btCPPUboLP" / X Eigenbros on X: "For those of you who need to brush up on your quantum here's the Hamiltonian for a particle in an electromagnetic field. #physics #science #quantum #QuantumMechanics https://t.co/btCPPUboLP" / X](https://pbs.twimg.com/media/EXxSu6LXkAIZsas.jpg)
Eigenbros on X: "For those of you who need to brush up on your quantum here's the Hamiltonian for a particle in an electromagnetic field. #physics #science #quantum #QuantumMechanics https://t.co/btCPPUboLP" / X
![PPT - Thus in the rotating frame the magnetic field becomes time-independent PowerPoint Presentation - ID:2043256 PPT - Thus in the rotating frame the magnetic field becomes time-independent PowerPoint Presentation - ID:2043256](https://image1.slideserve.com/2043256/slide10-l.jpg)
PPT - Thus in the rotating frame the magnetic field becomes time-independent PowerPoint Presentation - ID:2043256
![Physical Review B on X: "PRB Editors' Suggestion: #Magnetic field induced phases and #spin Hamiltonian in #Cs2CoBr4 L. Facheris, S. D. Nabi, K. Yu. Povarov, Z. Yan, A. Glezer Moshe, U. Nagel Physical Review B on X: "PRB Editors' Suggestion: #Magnetic field induced phases and #spin Hamiltonian in #Cs2CoBr4 L. Facheris, S. D. Nabi, K. Yu. Povarov, Z. Yan, A. Glezer Moshe, U. Nagel](https://pbs.twimg.com/media/GKewfqKXMAAxPBN.jpg:large)
Physical Review B on X: "PRB Editors' Suggestion: #Magnetic field induced phases and #spin Hamiltonian in #Cs2CoBr4 L. Facheris, S. D. Nabi, K. Yu. Povarov, Z. Yan, A. Glezer Moshe, U. Nagel
![a) Energy levels and eigenstates of two-nuclear spin Hamiltonian H (0)... | Download Scientific Diagram a) Energy levels and eigenstates of two-nuclear spin Hamiltonian H (0)... | Download Scientific Diagram](https://www.researchgate.net/publication/51930529/figure/fig2/AS:669031082250269@1536520848918/a-Energy-levels-and-eigenstates-of-two-nuclear-spin-Hamiltonian-H-0-i-j-under-zero.png)
a) Energy levels and eigenstates of two-nuclear spin Hamiltonian H (0)... | Download Scientific Diagram
![quantum mechanics - Calculating the expectation value of a spin operator in a uniform magnetic field - Physics Stack Exchange quantum mechanics - Calculating the expectation value of a spin operator in a uniform magnetic field - Physics Stack Exchange](https://i.stack.imgur.com/zEOUW.png)