Enroll Course: https://www.coursera.org/learn/thermo-apps
Thermodynamics is a fundamental branch of physics that deals with heat, work, and energy. For those looking to deepen their understanding of this subject, the Coursera course ‘Thermodynamique : applications’ offers a comprehensive exploration of thermodynamic principles and their applications across various fields such as chemistry, engineering, and physics.
This course is a continuation of the MOOC ‘Thermodynamique : fondements’, and it is taught by Professor J.-Ph. Ansermet from the École Polytechnique Fédérale de Lausanne, along with a team of experts from various institutions. The course is structured into several chapters, each focusing on different applications of thermodynamics.
### Course Highlights:
1. **Calorimetry**: Led by Professor Paul Ekam, this chapter delves into the modeling of infinitesimal heat exchanges and the coefficients that relate various state variables. It provides a solid foundation for understanding heat transfer in thermodynamic processes.
2. **Phase Transitions**: Dr. Marthe Boyomo discusses the theory of phase transitions, focusing on stability and first-order transitions, illustrated with the liquid-vapor transition using the van der Waals model.
3. **Thermodynamics and Chemical Reactions**: Dr. Théophile Mbang applies thermodynamic concepts to chemical reaction dynamics, introducing key terms like enthalpy and Gibbs free energy, and discussing Hess’s law and the law of mass action.
4. **Electrochemistry**: Professor M. Graetzel explores the application of thermodynamics in electrochemistry, modeling battery functions and fuel cells, and discussing electrochemical potential.
5. **Thermodynamic Properties of Fluids**: Professor André Talla examines isothermal, adiabatic, isochoric, and isobaric processes, defining efficiency and performance in thermodynamic cycles.
6. **Thermal Machines**: Professor Etienne Robert discusses the technical applications of thermodynamic cycles, explaining the workings of combustion engines, gas turbines, and thermal pumps.
7. **Heat Transfers**: Dr. Marwan Brouche and Dr. Chantal Maatouk cover heat transfer mechanisms, including conduction, convection, and radiation, and discuss the heat equation.
8. **Continuous Media**: Professor Miltiadis Papalexandris develops a local description of thermodynamics, defining intensive fields like temperature and pressure, and governing equations for reversible and irreversible processes.
9. **Irreversible Processes**: In this chapter, Professor Papalexandris models irreversible processes using linear relationships between generalized currents and forces, illustrating with examples like Ohm’s law and the Seebeck effect.
### Conclusion:
Overall, ‘Thermodynamique : applications’ is an excellent course for anyone looking to apply thermodynamic principles in real-world scenarios. The diverse range of topics covered, combined with expert instruction, makes it a valuable resource for students and professionals alike. Whether you are a budding engineer, a chemistry enthusiast, or simply curious about the laws of thermodynamics, this course is highly recommended.
### Tags:
1. Thermodynamics
2. Coursera
3. Online Learning
4. Chemistry
5. Engineering
6. Physics
7. Education
8. MOOCs
9. Heat Transfer
10. Phase Transitions
### Topic:
Thermodynamics Applications
Enroll Course: https://www.coursera.org/learn/thermo-apps