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# Quantum Physics Full Course Quantum Mechanics Course

Quantum Physics Full Course Quantum mechanics course

Quantum mechanics (QM; also known as #quantum #physics, quantum theory, the wave mechanical model, or #matrixmechanics), including quantum field theory, is a fundamental theory in physics which describes nature at the smallest scales of energy levels of atoms and subatomic particles.

⌨️ (0:00) Lesson 1: Fundamentals ⌨️ (10:03) Lesson 2: Complex Numbers in Quantum Mechanics ⌨️ (27:20) Lesson 3: Representing Complex Things ⌨️ (43:03) Lesson4: Superposition and Stationary States ⌨️ (1:0:00) Lesson5: Infinite Square Well ⌨️ (1:19:48) Lesson 6: More ISW + Dirac Notation ⌨️ (1:39:07) Lesson 9: QSHO, Operator Method, part 1 ⌨️ (1:55:37) Lesson 10: QSHO Part 2 ⌨️ (2:18:42) Lesson11 SHO Analytical ⌨️ (2:32:56) Lesson13 Free Particle (redo) ⌨️ (3:00:28) Lesson14 More Fourier Transforms, inner products ⌨️ (3:22:10) Lesson15 Delta Bound States ⌨️ (3:32:50) Lesson16: Scattering States of the Dirac Delta Potential + More DFT concepts ⌨️ (4:06:17) Finite Square Well (updated) ⌨️ (4:32:43) Tunneling and Bonding ⌨️ (5:08:05) Review (or intro) to Linear Algebra + Notation ⌨️ (6:03:52) Formalism I ⌨️ (6:14:20) Formalism II More Quantum Formalism ⌨️ (6:43:49) Formalism III: Time Evolution + More Change of Basis ⌨️ (7:39:45) Exam 3 Prep, More time evolution of Ammonia molecule ⌨️ (7:55:25) SWE in 3D ⌨️ (8:25:07) Hydrogen Solutions + Angular Momentum ⌨️ (8:31:14) Angular Momentum-II ⌨️ (8:57:34) Spin 1/2 ⌨️ Adding Spins and Entanglement ⌨️ Quantum Teleportation, No Cloning Theorem ⌨️ Quantum Computing, Deutsch’s Problem ⌨️ Worked Example: Infinite Square Well Superposition ⌨️ Measurement effect on Wavefunction, Fourier Coefficients, Energy ⌨️ Wavefunction in a numpy array to expectation value ⌨️ Wave Packet Spreading

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