PHYS508 - Quantum Mechanics II
This course covers the fundamentals of Quantum Mechanics, with a focus on topics such as wave functions, operators, and the Schrödinger equation. During the first week, lectures focused on the basics of quantum mechanics, while the second week focused on more advanced topics such as the Heisenberg Uncertainty Principle and the Pauli Exclusion Principle. ▼
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Course Feature
Cost:
Free
Provider:
Youtube
Certificate:
Paid Certification
Language:
English
Start Date:
On-Demand
Course Overview
❗The content presented here is sourced directly from Youtube platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.
Updated in [February 21st, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)
METU - Quantum Mechanics II - Week 1 - Lecture 1.
METU - Quantum Mechanics II - Week 1 - Lecture 2.
METU - Quantum Mechanics II - Week 1 - Lecture 3.
METU - Quantum Mechanics II - Week 2 - Lecture 1.
METU - Quantum Mechanics II - Week 2 - Lecture 2.
METU - Quantum Mechanics II - Week 2 - Lecture 3.
METU - Quantum Mechanics II - Week 3 - Lecture 3.
METU - Quantum Mechanics II - Week 3 - Lecture 2.
METU - Quantum Mechanics II - Week 3 - Lecture 1.
METU - Quantum Mechanics II - Week 4 - Lecture 1.
METU - Quantum Mechanics II - Week 4 - Lecture 2.
METU - Quantum Mechanics II - Week 4 - Lecture 3.
METU - Quantum Mechanics II - Week 5 - Lecture 2.
METU - Quantum Mechanics II - Week 5 - Lecture 1.
METU - Quantum Mechanics II - Week 5 - Lecture 3.
METU - Quantum Mechanics II - Week 6 - Lecture 1.
METU - Quantum Mechanics II - Week 6 - Lecture 2.
METU - Quantum Mechanics II - Week 6 - Lecture 3.
METU - Quantum Mechanics II - Week 7 - Lecture 2.
METU - Quantum Mechanics II - Week 7 - Lecture 1.
METU - Quantum Mechanics II - Week 7 - Lecture 3.
METU - Quantum Mechanics II - Week 8 - Lecture 1.
METU - Quantum Mechanics II - Week 8 - Lecture 3.
METU - Quantum Mechanics II - Week 8 - Lecture 2.
METU - Quantum Mechanics II - Week 9 - Lecture 3.
METU - Quantum Mechanics II - Week 9 - Lecture 2.
METU - Quantum Mechanics II - Week 9 - Lecture 1.
METU - Quantum Mechanics II - Week 10 - Lecture 1.
METU - Quantum Mechanics II - Week 10 - Lecture 2.
METU - Quantum Mechanics II - Week 10 - Lecture 3.
METU - Quantum Mechanics II - Week 11 - Lecture 3.
METU - Quantum Mechanics II - Week 11 - Lecture 2.
METU - Quantum Mechanics II - Week 11 - Lecture 1.
METU - Quantum Mechanics II - Week 12 - Lecture 1.
METU - Quantum Mechanics II - Week 12 - Lecture 3.
METU - Quantum Mechanics II - Week 12 - Lecture 2.
METU - Quantum Mechanics II - Week 13 - Lecture 1.
METU - Quantum Mechanics II - Week 13 - Lecture 3.
METU - Quantum Mechanics II - Week 14 - Lecture 1.
METU - Quantum Mechanics II - Week 14 - Lecture 2.
METU - Quantum Mechanics II - Week 14 - Lecture 3.
We consider the value of this course from multiple aspects, and finally summarize it for you from three aspects: personal skills, career development, and further study:
(Kindly be aware that our content is optimized by AI tools while also undergoing moderation carefully from our editorial staff.)
The PHYS508 - Quantum Mechanics II course provides learners with a comprehensive overview of quantum mechanics. It covers topics such as wave functions, operators, and the Schrödinger equation. It also covers topics such as the Heisenberg uncertainty principle, the Pauli exclusion principle, and the hydrogen atom.
Possible Development Paths include pursuing a career in physics, engineering, or mathematics. Learners may also choose to pursue a graduate degree in quantum mechanics or related fields.
Learning Suggestions for learners include studying related topics such as classical mechanics, thermodynamics, and statistical mechanics. Learners should also practice problem-solving skills and develop a strong understanding of the mathematical concepts behind quantum mechanics. Additionally, learners should read up on the latest research in the field and attend seminars and conferences to stay up to date with the latest developments.
[Applications]
Upon completion of PHYS508 - Quantum Mechanics II, students should be able to apply the concepts and principles learned in the course to a variety of real-world problems. Students should be able to use the knowledge gained to analyze and solve problems related to quantum mechanics, such as the Schrödinger equation, wave functions, and the Heisenberg uncertainty principle. Additionally, students should be able to use the course material to develop and apply numerical methods to solve quantum mechanical problems.
[Career Paths]
Learners who complete this course may pursue a career in one of the following positions:
1. Quantum Computing Engineer: Quantum computing engineers are responsible for developing and maintaining quantum computing systems. They must have a deep understanding of quantum mechanics and be able to apply it to the development of new technologies. This field is rapidly growing and is expected to continue to expand as quantum computing becomes more widely used.
2. Quantum Physicist: Quantum physicists are responsible for researching and understanding the behavior of particles at the quantum level. They must have a deep understanding of quantum mechanics and be able to apply it to their research. This field is rapidly growing and is expected to continue to expand as quantum computing becomes more widely used.
3. Quantum Information Scientist: Quantum information scientists are responsible for researching and developing new technologies based on quantum information. They must have a deep understanding of quantum mechanics and be able to apply it to their research. This field is rapidly growing and is expected to continue to expand as quantum computing becomes more widely used.
4. Quantum Engineer: Quantum engineers are responsible for designing and developing new technologies based on quantum mechanics. They must have a deep understanding of quantum mechanics and be able to apply it to their work. This field is rapidly growing and is expected to continue to expand as quantum computing becomes more widely used.
Course Provider
Provider Youtube's Stats at AZClass
Over 100+ Best Educational YouTube Channels in 2023.
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AZ Class hope that this free Youtube course can help your Quantum Mechanics skills no matter in career or in further education. Even if you are only slightly interested, you can take PHYS508 - Quantum Mechanics II course with confidence!
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