Enroll Course: https://www.coursera.org/learn/thermo-apps
If you’re looking to deepen your understanding of thermodynamics and its applications across various fields, then the Coursera course “Thermodynamique: applications” is a must-enroll! Building on the foundations laid out in the previous course, “Thermodynamique: fondements”, this course combines theoretical concepts with practical applications in chemistry, engineering, and physics.
The course is led by esteemed Professor J.-Ph. Ansermet from the École Polytechnique Fédérale de Lausanne, along with a team of experts from notable institutions within the RESCIF network. This collaborative approach ensures a rich learning experience, providing you with insights directly from specialists in the field.
### Course Syllabus Highlights
The syllabus is comprehensive and includes several key topics:
1. **Calorimetry**: Professor Paul Ekam demonstrates how to model infinitesimal heat exchanges, applying calorimetric coefficients to standard processes such as isothermal, adiabatic, and isochoric exchanges.
2. **Phase Transitions**: Doctor Marthe Boyomo discusses the stability of states in phase transitions and illustrates first-order transitions using the van der Waals model.
3. **Thermodynamics and Chemical Reactions**: Doctor Théophile Mbang introduces concepts of thermodynamics applied to chemical reaction dynamics, including enthalpy and Gibbs free energy.
4. **Electrochemistry**: Professor M. Graetzel explores thermodynamics in electrochemistry, focusing on battery and fuel cell operations.
5. **Thermodynamic Properties of Fluids**: Professor André Talla covers isothermal, adiabatic, isochores, and isobares processes within fluid dynamics.
6. **Thermal Machines**: Professor Etienne Robert elaborates on technical applications of thermodynamic cycles in combustion engines and gas turbines.
7. **Heat Transfers**: Doctors Marwan Brouche and Chantal Maatouk discuss heat transfer methods, including convection, conduction, and radiation.
8. **Continuous Media**: Professor Miltiadis Papalexandris from UCL presents a local thermodynamic description focusing on intensive fields such as temperature, pressure, and thermodynamic potential.
9. **Irreversible Processes**: Professors Papalexandris returns to apply thermodynamics to model irreversible processes, using examples from various physical laws.
### Why Enroll?
This course is particularly beneficial for students and professionals who wish to apply thermodynamic principles to real-world scenarios. The integration of concepts across multiple fields encourages a holistic understanding, making this an invaluable resource. Each chapter builds on practical examples, ensuring that you are not just learning theory, but also how to utilize this knowledge in practical settings.
In summary, “Thermodynamique: applications” offers a rich curriculum ideal for anyone looking to master thermodynamics comprehensively. Don’t miss this opportunity to learn from leading experts and see how thermodynamic principles underpin various scientific and engineering challenges.
### Final Thoughts
For those committed to enhancing their knowledge and skills in thermodynamics, I highly recommend this course. Dive into the world of thermodynamics with expert guidance and elevate your understanding to new heights!
Enroll Course: https://www.coursera.org/learn/thermo-apps