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The differential equation is basically the relationship between the function and its derivations. A lot of engineering principles can be described through this type of relationship and its other applications.

This [course_title] contains different principles of the laws of thermodynamics. You will learn more this year that will help your progress and development prosper that focuses on topics like the laws of thermodynamics and many more which can be useful.

Assessment

This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.

Certification

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Having an Official Edukite Certification is a great way to celebrate and share your success. You can:

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  • Show it to prove your success

 

Course Credit: MIT

Course Curriculum

Lecture 1: Collective Behavior, from Particles to Fields Part 1 01:16:00
Lecture 2: Lec 1 (continued); The Landau-Ginzburg Approach Part 1 01:24:00
Lecture 3: The Landau-Ginzburg Approach Part 2 01:25:00
Lecture 4: The Landau-Ginzburg Approach Part 3 01:16:00
Lecture 5: The Landau-Ginzburg Approach Part 4 01:16:00
Lecture 6: The Scaling Hypothesis Part 01:22:00
Lecture 7: The Scaling Hypothesis Part 2 01:17:00
Lecture 8: The Scaling Hypothesis Part 3 01:16:00
Lecture 9: Perturbative Renormalization Group Part 1 01:22:00
Lecture 10: Perturbative Renormalization Group Part 2 01:23:00
Lecture 11: Perturbative Renormalization Group Part 3 01:28:00
Lecture 12: Perturbative Renormalization Group Part 4 01:23:00
Lecture 13: Position Space Renormalization Group, Part 1 01:23:00
Lecture 14: Position Space Renormalization Group, Part 2 01:20:00
Lecture 15: Series Expansions Part 1 01:18:00
Lecture 16: Series Expansions Part 2 01:22:00
Lecture 17: Series Expansions Part 3 01:20:00
Lecture 18: Series Expansions Part 4 01:20:00
Lecture 19: Series Expansions Part 5 01:20:00
Lecture 20: Continuous Spins at Low Temperatures Part 1 01:23:00
Lecture 21: Continuous Spins at Low Temperatures Part 2 01:21:00
Lecture 22: Continuous Spins at Low Temperatures Part 3 01:22:00
Lecture 23: Continuous Spins at Low Temperatures Part 4 01:21:00
Lecture 24: Dissipative Dynamics 01:25:00
Lecture 25: Continuous Spins at Low Temperatures Part 5 01:21:00
Lecture 26: Continuous Spins at Low Temperatures Part 6 01:24:00
Assessment
Submit Your Assignment 00:00:00
Certification 00:00:00

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