Digital Learning
Digital Courses
Structured digital courses in physics, quantum theory, and quantum algorithms are in preparation. Each course is being built around a clear topic list, recorded lectures, and accompanying notes.
I am planning a set of digital courses designed for students who want structured, self-paced learning materials in mathematics and quantum computing. Nothing is available yet — this page previews what is planned.
Planned Courses
Physics 1
Classical mechanics: kinematics, Newton's laws, energy and momentum, oscillations, and an introduction to waves.
Topics
- · Mechanics
- · Newton's laws
- · Energy and momentum
- · Oscillations
- · Waves
Physics 2
Electromagnetism: electrostatics, Gauss's law, electric potential, circuits, magnetostatics, Faraday induction, and the road to Maxwell's equations.
Topics
- · Electrostatics
- · Gauss's law
- · Electric potential
- · Circuits
- · Magnetostatics
- … and more
Quantum 1
Introduction to quantum mechanics: wavefunctions, operators, measurement, spin, the Schrödinger equation, the harmonic oscillator, and angular momentum.
Topics
- · Wavefunctions
- · Operators
- · Measurement
- · Spin
- · Schrödinger equation
- … and more
Quantum Algorithms
Quantum computing from qubits to algorithms: gates and circuits, Deutsch–Jozsa, phase estimation, the Quantum Fourier Transform, Grover, Shor, variational algorithms, and quantum machine learning foundations.
Topics
- · Qubits and gates
- · Circuits
- · Deutsch–Jozsa
- · Phase estimation
- · QFT
- … and more
Interested in early access?
Send me a message if you want to be notified when the first course launches, or if you have specific topics you want covered.
Get in touch