Download Bootcamp to Relativistic Quantum Mechanics 2024
Bootcamp to Relativistic Quantum Mechanics udemy video course download, This course on RQM is a step before learning the most successful theory of the present times which is the Quantum Field theory (QFT). Here we shall begin with Einstein’s famous energy-mass equivalence relation and wave function (ψ) to explore our journey into the world of Relativistic Quantum Mechanics. A framework that paves way to Quantum Electrodynamics (QED) and the involved mathematical equations are explained in a lucid way to grow the subject. Quantum spin emerges as an intrinsic property of Dirac’s equation. Furthermore, the concept of antimatter was theoretically predicted by Dirac’s equation, though in 1928 it was initially viewed more as an issue than a notable feature.
What you’ll learn
- In 4 hours learn the basics of modern physics known as relativistic quantum mechanics for which Richard Feynman coined a term -“the jewel of physics”.
- Derivation of Klein-Gordon Equation and Dirac’s Equation.
- How spin of electron becomes intrinsic feature of equation.
- Fine spectrum of hydrogen atom.
- How anti-matter existence through equations emerged theoretically.
- How to write a wave-function with bi-spinor.
- Discussion on Dirac’s struggle for prediction of anti-matter before positron discovery by Carl Anderson.
- 1. Gain a comprehensive understanding of relativistic quantum mechanics.
- 2. Derive the Klein-Gordon Equation and Dirac’s Equation.
- 3. Explore how the spin of the electron inherently integrates into these equations.
- 4. Investigate the fine spectrum of the hydrogen atom.
- 5. Discover the theoretical emergence of antimatter through equations.
- 6. Learn to construct wave functions using bi-spinors.
- 7. Dirac’s pioneering efforts in predicting antimatter.
Course details
- Video quality: MP4 | Video: h264, 1280 × 720
- Audio quality: Audio: AAC, 44.1 KHz, 2 Ch
- Video duration: 3h 50m
- Number of lessons: 04 sections, 05 lectures
- Language: English
- Compressed file size: 1.17 GB
