Welcome to the Quantum Mechanics Class repository! This course aims to introduce students to the fundamental concepts of quantum mechanics, quantum phenomena, quantum interpretations, and the application of these concepts to computing.
This repository hosts all the homework notebooks associated with the course, demonstrating deep comprehension of various topics within quantum mechanics, and applications of these theories using Python for quantum computations.
The course is broken down into the following modules:
- Schrödinger Equation
- Quantum Phenomena
- Quantum States (Cats and Qubits)
- Quantum Interpretations
- Quantum Logic and Grover's Algorithm
Each module introduces fundamental principles and theories of quantum mechanics and quantum computing and is paired with a comprehensive homework assignment to reinforce the learning and provide hands-on experience in problem-solving and programming for quantum systems.
The repository structure is as follows:
.
├── README.md
├── HW1_schrodinger_equation.ipynb
├── HW2_quantum_phenomena.ipynb
├── HW3_cats_and_qubits.ipynb
├── HW4_quantum_interpretations.ipynb
└── HW5_logic_and_grover.ipynb
Each HW<i>_*.ipynb file is a Jupyter notebook containing the homework associated with the corresponding course module.
Feel free to contact me for any questions, discussions, or clarifications about this Quantum Mechanics class or any related topics. I am always open to discussing scientific principles, particularly in the realm of Quantum Mechanics and Quantum Computing.
Contact Information:
masewheeler@outlook.com - 360-975-8555