Fundamentals of Engineering Thermodynamics

Master the Principles of Energy, Heat, and Entropy: Analyzing Power Plants, Engines, and Refrigeration Systems
4.11 (96 reviews)
Udemy
platform
English
language
Engineering
category
instructor
Fundamentals of Engineering Thermodynamics
10β€―468
students
22.5 hours
content
Sep 2020
last update
$29.99
regular price

Why take this course?

🌟 Course Title: Master the Principles of Energy, Heat, and Entropy: Analyzing Power Plants, Engines, and Refrigeration Systems

πŸ“˜ Course Description:

Embark on a transformative learning journey with our Fundamentals of Engineering Thermodynamics course! This comprehensive program is designed to demystify the complex concepts of thermodynamics for students and professionals alike. Through this course, you'll gain a robust understanding of the fundamental principles that govern energy, heat, and entropy in engineering systems.

πŸ“š Topics Covered:

Our curriculum begins with laying down the foundation of thermodynamic principles:

  1. πŸ” Basic Definitions - From system properties to temperature scales and types of work, we'll explore the building blocks of thermodynamics.
  2. βš–οΈ First Law of Thermodynamics - Learn how this law dictates the conservation of energy in systems and understand the interplay between heat and work.
  3. πŸ“ˆ Properties of Pure Compressible Substances - Gain insights into the behavior of substances across different phases and during phase transitions.
  4. πŸ” First Law for Control Volumes - Master the energy relationship for flow processes, which is crucial for analyzing various engineering systems.
  5. πŸ€” Second Law of Thermodynamics - Explore the concept of irreversible vs. reversible processes and how it applies to real-world scenarios.
  6. πŸ†š Entropy - Discover the role of entropy in assessing system efficiency and its production rate within control volumes.
  7. πŸ”§ Entropy Rate Balance for Control Volume - Learn how this principle helps optimize thermodynamic systems.
  8. ⚑️ Power, Refrigeration, and Heat Pump Cycles - Assess the performance of these critical components in industries ranging from automotive to energy production.

πŸš€ Course Outcomes:

Upon completing this course, you will:

  1. 🌱 Master energy conservation as defined by the first law of thermodynamics, which is a cornerstone for designing and analyzing energy systems.
  2. πŸ” Determine the feasibility of processes using the second law of thermodynamics, ensuring that your projects are both efficient and practical.
  3. 🏭 Apply the laws of thermodynamics to real-world applications like power plants, engines, and refrigeration systems, enhancing your expertise in these fields.
  4. 🧠 Gain a profound understanding of the fundamentals of thermodynamics, enabling you to apply this knowledge effectively in various engineering contexts.

πŸŽ“ Why Enroll?

  • Accessible and engaging content that makes complex concepts clear and understandable.
  • Practical examples and case studies to illustrate real-world applications of the laws of thermodynamics.
  • Interactive quizzes and assignments to reinforce learning and track your progress.
  • Expert guidance from Prof. Samercourse, a renowned expert in the field of thermodynamics.

Don't miss out on this opportunity to transform your understanding of thermodynamics and its applications in the engineering world! πŸŽ“πŸ’« Enroll now and start your journey towards mastering energy, heat, and entropy. Happy learning!

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3046552
udemy ID
24/04/2020
course created date
02/06/2020
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