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Thermodynamics Exam Prep: Cycles & Components Explained
Published 1/2026
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 9h 6m | Size: 3.65 GB [/center]
Rankine, Brayton, Heat Pumps, Components, and Exam style Problem Solving
What you'll learn
Analyze thermodynamic cycles by breaking them down into individual components
Apply energy balances to turbines, compressors, pumps, and heat exchangers in exam problems
Calculate isentropic efficiency and understand how it affects real systems
Solve Rankine and Brayton cycle exam problems step by step using diagrams and balances
Analyze heat pump and refrigeration cycles and correctly calculate COP
Develop a repeatable method for solving thermodynamic cycle exam problems under time pressure
Requirements
Basic understanding of fundamental thermodynamics concepts
Familiarity with the First Law of Thermodynamics (energy balances)
A calculator and willingness to practice exam-style problems
Description
Thermodynamic cycles are where many students feel everything suddenly becomes complicated.Turbines, compressors, pumps, heat exchangers, efficiencies, and multiple states can make exam problems feel overwhelming even if the individual concepts seem familiar.This course is designed to remove that confusion.Thermodynamics Exam Prep: Cycles & Components Explained shows you how thermodynamic cycles are built from individual components and how those components behave in real exam problems. Instead of memorizing cycle diagrams, you'll learn how to analyze each part of a system and then connect them into a complete, structured solution.The course begins with the most important process components used in thermodynamics exams, including turbines, compressors, pumps, heat exchangers, and expansion valves. You'll learn how energy balances apply to each component, how isentropic efficiency is used in practice, and how ideal and real behavior differ.From there, the course applies these tools to common thermodynamic cycles, including the Rankine cycle for power plants, the Brayton cycle for gas turbines, and vapor compression heat pump systems. Every cycle is explained using diagrams, assumptions, and step-by-step exam style example problems.Throughout the course, the focus is on building a clear, repeatable problemsolving method. Common exam mistakes are highlighted and addressed so you know exactly what examiners expect and how to avoid losing points.This course is intended as a focused complement to university thermodynamics lectures and works especially well if you understand the basics but struggle to analyze full cycles during exams.By the end of this course, you will be able to:Analyze thermodynamic components using energy balancesCalculate isentropic efficiency and component performanceSolve Rankine and Brayton cycle exam problems step by stepAnalyze heat pump and refrigeration cycles and calculate COPIf you want to stop memorizing cycle diagrams and start solving thermodynamics cycle problems with confidence, this course is built for you.
Who this course is for
Engineering students preparing for thermodynamics exams who want to understand how cycles are built and analyzed
Students who struggle to connect turbines, compressors, heat exchangers, and pumps into full cycle problems
Students who want a clear, exam focused explanation of isentropic efficiency and component performance
Anyone who wants a structured, step-by-step method for solving thermodynamic cycle exam problems
Thermodynamics Exam Prep: Cycles & Components Explained
Published 1/2026
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 9h 6m | Size: 3.65 GB [/center]
Rankine, Brayton, Heat Pumps, Components, and Exam style Problem Solving
What you'll learn
Analyze thermodynamic cycles by breaking them down into individual components
Apply energy balances to turbines, compressors, pumps, and heat exchangers in exam problems
Calculate isentropic efficiency and understand how it affects real systems
Solve Rankine and Brayton cycle exam problems step by step using diagrams and balances
Analyze heat pump and refrigeration cycles and correctly calculate COP
Develop a repeatable method for solving thermodynamic cycle exam problems under time pressure
Requirements
Basic understanding of fundamental thermodynamics concepts
Familiarity with the First Law of Thermodynamics (energy balances)
A calculator and willingness to practice exam-style problems
Description
Thermodynamic cycles are where many students feel everything suddenly becomes complicated.Turbines, compressors, pumps, heat exchangers, efficiencies, and multiple states can make exam problems feel overwhelming even if the individual concepts seem familiar.This course is designed to remove that confusion.Thermodynamics Exam Prep: Cycles & Components Explained shows you how thermodynamic cycles are built from individual components and how those components behave in real exam problems. Instead of memorizing cycle diagrams, you'll learn how to analyze each part of a system and then connect them into a complete, structured solution.The course begins with the most important process components used in thermodynamics exams, including turbines, compressors, pumps, heat exchangers, and expansion valves. You'll learn how energy balances apply to each component, how isentropic efficiency is used in practice, and how ideal and real behavior differ.From there, the course applies these tools to common thermodynamic cycles, including the Rankine cycle for power plants, the Brayton cycle for gas turbines, and vapor compression heat pump systems. Every cycle is explained using diagrams, assumptions, and step-by-step exam style example problems.Throughout the course, the focus is on building a clear, repeatable problemsolving method. Common exam mistakes are highlighted and addressed so you know exactly what examiners expect and how to avoid losing points.This course is intended as a focused complement to university thermodynamics lectures and works especially well if you understand the basics but struggle to analyze full cycles during exams.By the end of this course, you will be able to:Analyze thermodynamic components using energy balancesCalculate isentropic efficiency and component performanceSolve Rankine and Brayton cycle exam problems step by stepAnalyze heat pump and refrigeration cycles and calculate COPIf you want to stop memorizing cycle diagrams and start solving thermodynamics cycle problems with confidence, this course is built for you.
Who this course is for
Engineering students preparing for thermodynamics exams who want to understand how cycles are built and analyzed
Students who struggle to connect turbines, compressors, heat exchangers, and pumps into full cycle problems
Students who want a clear, exam focused explanation of isentropic efficiency and component performance
Anyone who wants a structured, step-by-step method for solving thermodynamic cycle exam problems
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