Udemy - Quantum Physics - an overview of a weird world (Supplemental) [Course Drive]
- CategoryOther
- TypeTutorials
- LanguageEnglish
- Total size2.6 GB
- Uploaded Bycoursedrive
- Downloads89
- Last checkedMay. 12th '20
- Date uploadedMay. 11th '20
- Seeders 11
- Leechers13
⚡️⚡️For More Udemy Courses Visit ?? Course Drive
Quantum Physics: an overview of a weird world (Supplemental)
Digging further into the conceptual foundations of Quantum Physics
What you'll learn
• More on the conceptual foundations of Quantum Physics.
• Quantum Theory without falling into oversimplifications or hyped versions and yet conceived for an audience of non-physicists.
• Pauli's exclusion principle, Feynman path integrals and diagrams, Aharonov-Bohm effect, quantum Zeno effect, Bell's theorem, the 'which-way' and quantum eraser experiments, interaction free experiments, Wheeler's delayed choice experiment, quantum teleportation (quantum computing, quantum cryptography and the interpretations of quantum mechanics is coming soon).
Requirements
• The Udemy course "Quantum Physics: an overview of a weird world (Basics)".
• Some lectures resort to beginners level math, in few cases high school mathematical basics, but no university level required.
• In case you need a mathematical refresh an appendix will help you to recall some elementary mathematical concepts (Pythagorean theorem, square root, exponential, sin/cos functions, Cartesian coordinates, vectors, intuitive concept of a derivative, basic notion of a complex number).
Description
This is a supplement and continuation of the Udemy course "Quantum Physics: an overview of a weird world (Basics)". The first part furnished the basics of Quantum Physics, this part dwells deeper into other aspects. Topics addressed are the stability and solidity of matter, the Bell's inequality and Bell theorem, the Aharonov-Bohm effect, Feynman path integrals and Feynman diagrams, and the quantum Zeno effect, the 'which-way' and quantum eraser experiments, interaction free experiments and Wheeler's delayed choice experiment and quantum teleportation (an intro to quantum computing, quantum cryptography and the interpretations of quantum mechanics is coming soon). It may also be interesting for physicists who want to deepen their conceptual foundations that conventional college do not deliver.
Who this course is for:
• Everyone who is passionate about science and/or philosophy of science and is curious about the laws and the nature of the material universe.
• The course is well suited for all those university students who do not have sufficient mathematical background to go through a high-level QM course, but would like to assimilate the basics of quantum physics for the purpose of additional research. For instance philosophers, historians of science, IT students, engineers.
Files:
Quantum Physics- an overview of a weird world (Supplemental) Quantum Physics- an overview of a weird world (Supplemental) 06 Interpretations of Quantum Mechanics- 022 The Many World and other interpretations of quantum mechanics.mp4 (191.1 MB)
- 021 The De Broglie-Bohm pilot-wave Interpretation.en.srt (20.2 KB)
- 021 The De Broglie-Bohm pilot-wave Interpretation.mp4 (112.8 MB)
- 022 The Many World and other interpretations of quantum mechanics.en.srt (33.2 KB)
- 023 Some personal considerations on the interpretations of quantum mechanics.en.srt (14.7 KB)
- 023 Some personal considerations on the interpretations of quantum mechanics.mp4 (87.7 MB)
- ReadMe.txt (0.2 KB)
- Visit Coursedrive.org.url (0.1 KB) 01 Introduction
- 001 Introduction.en.srt (5.1 KB)
- 001 Introduction.mp4 (20.2 MB)
- 002 Why is matter hard Part I Force fields.en.srt (31.6 KB)
- 002 Why is matter hard Part I Force fields.mp4 (168.7 MB)
- 003 Why is matter hard Part II Paulis exclusion principle.en.srt (26.3 KB)
- 003 Why is matter hard Part II Paulis exclusion principle.mp4 (148.6 MB)
- 004 Why is matter stable.en.srt (15.7 KB)
- 004 Why is matter stable.mp4 (92.6 MB)
- 005 The Aharonov-Bohm effect.en.srt (21.3 KB)
- 005 The Aharonov-Bohm effect.mp4 (90.1 MB)
- 006 Path integrals and Feynman diagrams.en.srt (31.1 KB)
- 006 Path integrals and Feynman diagrams.mp4 (139.3 MB)
- 007 The quantum Zeno effect.en.srt (12.2 KB)
- 007 The quantum Zeno effect.mp4 (50.6 MB)
- 008 Is the Moon there when nobody looks.en.srt (6.4 KB)
- 008 Is the Moon there when nobody looks.mp4 (33.7 MB)
- 009 Photons entanglement.en.srt (8.1 KB)
- 009 Photons entanglement.mp4 (42.7 MB)
- 010 Polarization correlation coefficients.en.srt (21.8 KB)
- 010 Polarization correlation coefficients.mp4 (98.2 MB)
- 011 Bells inequality.en.srt (41.9 KB)
- 011 Bells inequality.mp4 (158.9 MB)
- 012 Bells theorem.en.srt (15.3 KB)
- 012 Bells theorem.mp4 (112.5 MB)
- 013 The Mach-Zehender Interferometer (MZI).en.srt (15.8 KB)
- 013 The Mach-Zehender Interferometer (MZI).mp4 (100.6 MB)
- 014 The single photon in the MZI.en.srt (12.0 KB)
- 014 The single photon in the MZI.mp4 (57.3 MB)
- 015 Which-Way and quantum erasing experiments.en.srt (41.5 KB)
- 015 Which-Way and quantum erasing experiments.mp4 (168.9 MB)
- 016 Interaction free measurement.en.srt (13.4 KB)
- 016 Interaction free measurement.mp4 (64.1 MB)
- 017 The delayed choice experiment.en.srt (16.9 KB)
- 017 The delayed choice experiment.mp4 (73.7 MB)
- 018 Quantum teleportation of a Qubit.en.srt (29.4 KB)
- 018 Quantum teleportation of a Qubit.mp4 (108.6 MB)
- 019 Quantum computing.en.srt (28.4 KB)
- 019 Quantum computing.mp4 (110.2 MB)
- 020 Quantum cryptography and future of quantum IT.en.srt (27.2 KB)
- 020 Quantum cryptography and future of quantum IT.mp4 (124.4 MB)
- 024 Conclusion.en.srt (1.7 KB)
- 024 Conclusion.mp4 (39.0 MB)
- 025 Appendix - Part I Elementary mathematical introduction.en.srt (19.2 KB)
- 025 Appendix - Part I Elementary mathematical introduction.mp4 (75.7 MB)
- 026 Appendix - Part II waves and complex numbers.en.srt (22.5 KB)
- 026 Appendix - Part II waves and complex numbers.mp4 (121.7 MB)
- 027 Appendix - Part III more on waves and some calculus.en.srt (18.4 KB)
- 027 Appendix - Part III more on waves and some calculus.mp4 (78.2 MB)
- 028 Linear momentum and kinetic energy.en.srt (6.9 KB)
- 028 Linear momentum and kinetic energy.mp4 (19.8 MB)
- Visit Coursedrive.org.url (0.1 KB)
- ReadMe.txt (0.2 KB)
Code:
- udp://tracker.opentrackr.org:1337/announce
- udp://tracker.leechers-paradise.org:6969/announce
- http://p4p.arenabg.com:1337/announce
- udp://9.rarbg.to:2710/announce
- udp://9.rarbg.me:2710/announce
- udp://exodus.desync.com:6969/announce
- udp://open.stealth.si:80/announce
- udp://tracker.cyberia.is:6969/announce
- udp://tracker.tiny-vps.com:6969/announce
- udp://tracker.sbsub.com:2710/announce
- udp://retracker.lanta-net.ru:2710/announce
- udp://tracker.torrent.eu.org:451/announce
- udp://tracker.moeking.me:6969/announce
- http://tracker3.itzmx.com:6961/announce
- http://tracker1.itzmx.com:8080/announce