Mastering Thermodynamics:The Study Of Energy And Entropy

Unlock the Secrets of Energy Transformation: Master the Art of Thermodynamics and Boost Your Engineering Skills

What you'll learn
Understand basic concepts and laws of thermodynamics
Conduct first law analysis of open and closed systems
Determine entropy and availability changes associated with different processes
Understand the application and limitations of different equations of state
Determine change in properties of pure substances during phase change processes
Evaluate properties of ideal gas mixtures

Requirements
Basic calculus

Description
Course Description: The course "Fundamentals of Thermodynamics" offers a comprehensive introduction to the principles and concepts governing the behavior of energy and matter in various systems. Thermodynamics is a fundamental branch of physics and engineering that underpins countless natural and man-made processes, from the behavior of gases and liquids to the operation of engines and power plants.Throughout this course, students will delve into the core principles of thermodynamics, exploring the fundamental laws and equations that govern energy transfer and conversion. The course is designed to provide a solid foundation for understanding and analyzing the behavior of systems in thermal equilibrium, as well as those undergoing processes of energy exchange.Key Topics Covered:Basic Concepts and Definitions:Energy, heat, and workSystem and surroundingsState variables and propertiesThe First Law of Thermodynamics:Conservation of energyInternal energyHeat transferWork done in different processesThe Second Law of Thermodynamics:Entropy and its significanceHeat engines and their efficiencyCarnot cycle and Carnot theoremEntropy change in reversible and irreversible processesThermodynamic Processes:Isothermal, adiabatic, isobaric, and isochoric processesPhase transitions and equilibriumThermodynamic Properties of Substances:Equations of stateSpecific heat capacitiesEnthalpy and internal energy changesMixtures Ideal gas mixturesThroughout the course, students will engage in theoretical discussions, problem-solving exercises, and practical applications. The lectures will be supplemented with hands-on demonstrations, numerical simulations, and real-world case studies to enhance the students' understanding and ability to apply thermodynamic principles to diverse situations.By the end of the course, students will have developed a strong foundation in thermodynamics, enabling them to analyze and predict the behavior of various systems in terms of energy transformation, making them better equipped to tackle engineering challenges and contribute to the advancement of technology and energy efficiency.

Who this course is for:
All those who want to study thermodynamics