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 complex 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 is taught by Professor J.-Ph. Ansermet from the École Polytechnique Fédérale de Lausanne, alongside experts from various institutions within the RESCIF network. The course is structured into several chapters, each focusing on different applications of thermodynamics.
### Course Overview
1. **Calorimetry**: Led by Professor Paul Ekam, this chapter delves into the modeling of infinitesimal heat exchanges, exploring state variables and calorimetric coefficients. Students learn to calculate work and heat exchanges for standard processes like isothermal, adiabatic, and isochoric.
2. **Phase Transitions**: Dr. Marthe Boyomo introduces the theory of phase transitions, discussing stability and first-order transitions, illustrated through 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, along with Hess’s law and the law of mass action.
4. **Electrochemistry**: Professor M. Graetzel explores 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 yield 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 such as convection, conduction, and radiation, including 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**: Continuing with Professor Papalexandris, this chapter models irreversible processes through linear relationships between generalized currents and forces, discussing various physical laws and effects.
### Why You Should Take This Course
This course is highly recommended for students and professionals in the fields of physics, chemistry, and engineering. It provides a solid foundation in thermodynamic principles while also offering practical applications that are crucial for real-world problem-solving. The diverse expertise of the instructors ensures a well-rounded understanding of the subject matter.
The interactive format of the course, combined with real-world examples, makes it engaging and informative. Whether you’re looking to enhance your academic knowledge or apply thermodynamic principles in your career, ‘Thermodynamique : applications’ is a valuable resource.
### Conclusion
In conclusion, ‘Thermodynamique : applications’ is a must-take course for anyone serious about mastering thermodynamics. With its expert instructors and comprehensive syllabus, it equips learners with the knowledge and skills necessary to apply thermodynamic concepts effectively.
Enroll today and take your understanding of thermodynamics to the next level!
Enroll Course: https://www.coursera.org/learn/thermo-apps