Physics is a broad subject that deals with matter, energy, and their interactions which has an important role in the society. One of the branches of physics is the thermodynamics where it deals with the relations between heat and temperature of the matters.
Take this [course_title] to learn the equilibrium properties of macroscopic systems. You will know about the basic concepts, theories, and principles of thermodynamics other chemical reactions.
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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Course Credit: MIT
Course Curriculum
Lecture 1: State of a system, 0th law, equation of state | 00:45:00 | ||
Lecture 2: Work, heat, first law | 00:50:00 | ||
Lecture 3: Internal energy, expansion work | 00:52:00 | ||
Lecture 4: Enthalpy | 00:54:00 | ||
Lecture 5: Adiabatic changes | 00:49:00 | ||
Lecture 6: Thermochemistry | 00:52:00 | ||
Lecture 7: Calorimetry | 00:54:00 | ||
Lecture 8: Second law | 00:49:00 | ||
Lecture 9: Entropy and the Clausius inequality | 00:50:00 | ||
Lecture 10: Entropy and irreversibility | 00:52:00 | ||
Lecture 11: Fundamental equation, absolute S,third law | 00:51:00 | ||
Lecture 12: Criteria for spontaneous change | 00:48:00 | ||
Lecture 13: Gibbs free energy | 00:49:00 | ||
Lecture 14: Multicomponent systems, chemical potential | 00:47:00 | ||
Lecture 15: Chemical equilibrium | 00:51:00 | ||
Lecture 16: Temperature, pressure and Kp | 00:51:00 | ||
Lecture 17: Equilibrium: application to drug design | 00:32:00 | ||
Lecture 18: Phase equilibria — one component | 00:50:00 | ||
Lecture 19: Clausius-Clapeyron equation | 00:50:00 | ||
Lecture 20: Phase equilibria — two components | 00:49:00 | ||
Lecture 21: Ideal solutions | 00:50:00 | ||
Lecture 22: Non-ideal solutions | 00:51:00 | ||
Lecture 23: Colligative properties | 00:49:00 | ||
Lecture 24: Introduction to statistical mechanics | 00:52:00 | ||
Lecture 25: Partition function (q) — large N limit | 00:51:00 | ||
Lecture 26: Partition function (Q) — many particles | 00:51:00 | ||
Lecture 27: Statistical mechanics and discrete energy levels | 00:51:00 | ||
Lecture 28: Model systems | 00:51:00 | ||
Lecture 29: Applications: chemical and phaseequilibria | 00:51:00 | ||
Lecture 30: Introduction to reaction kinetics | 00:57:00 | ||
Lecture 31: Complex reactions and mechanisms | 00:45:00 | ||
Lecture 32: Steady-state and equilibrium approximations | 00:50:00 | ||
Lecture 33: Chain reactions | 00:50:00 | ||
Lecture 34: Temperature dependence, Ea, catalysis | 00:45:00 | ||
Lecture 35: Enzyme catalysis | 00:50:00 | ||
Lecture 36: Autocatalysis and oscillators | 00:40:00 | ||
Assessment | |||
Submit Your Assignment | 00:00:00 | ||
Certification | 00:00:00 |
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