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 熱力學 Thermodynamics - 第一章 Introduction

 週次 章節 影音格式 第一章 Introduction 第二章 Control Volumes and Units 2.1 A thermodynamics system and the control volume 2.2 Macroscopic point of view (巨觀) versus Microscopic point of view (微觀) 2.3 Properties and state of substance 2.4 Processes and Cycles 2.8 Pressure 2.9 Equality of temperature 2.11 Temperature scale 第三章 Pure substance behavior 3.1 The Pure substance 3.2 Vapor-liquid-solid-phase equilibrium in a pure substance 3.3 Independent properties of a pure substance 3.2 Vapor-liquid-solid-phase equilibrium in a pure substance 3.3 Independent properties of a pure substance 3.4 Tables of thermodynamic properties 3.5 Thermodynamic surface 3.6 The P-ν-T behavior of low-and-moderate-density gases 3.6 The P-ν-T behavior of low-and-moderate-density gases 第四章 Energy transfer 4.1 Definition of work (W) 4.2 Units for work 4.3 Work done at the moving boundary of a simple compressible system in a quasi-equilibrium pr 4.1 Definition of work (W) 4.2 Units for work 4.3 Work done at the moving boundary of a simple compressible system in a quasi-equilibrium process 4.4 Other systems that involve work 4.5 Concluding remarks regarding w 4.7 Heat Transfer Modes 4.8 Comparison of heat and work 第五章 The first law of thermodynamics 5.1 The first law of thermodynamics for a control mass undergoing a cycle 5.2 The First Law of Thermodynamics for a Change i 5.3 Internal Energy (U) - A Thermodynamic Property 5.4 Problem Analysis and Solution Technique 5.5 Enthalpy (H)- A Thermodynamic Property 5.6 The Constant-Volume and Constant Pressure Specific Heats 5.7 The Internal Energy, Enthalpy, and Specific Heat of Ideal Gases 5.8 The First Law as A Rate Equation 5.9 Conservation of Mass 第六章 First law analysis for a control volume 6.1 Conservation of mass and the control volume 6.2 The first law of thermodynamics for a control volume 6.3 The steady-state , steady-flow (SSSF) proces 6.4 Example of SSSF processes 6.5 The uniform-state，uniform-flow process 6.4 Example of SSSF processes 6.5 The uniform-state，uniform-flow process 第七章 The classical second law of thermodynanics 7.2 The second law of thermodynamics 7.3 The reversible process (可逆過程) 7.4 Factor that render processes irreversible 7.5 The Carnot cycle 7.6 Two propositions regarding the efficiency of a Carnot cycle 7.7 The thermodynamics temperature scale 7.8 The ideal-gas temperature scale 7.9 Ideal versus real machines 第八章 Entropy for a control mass 8.1 The Inequ 8.2 Entropy-A property of system 8.3 The Entropy of a pure substance 8.4 Entropy change in reversible processes 8.5 The thermodynamic property relation 8.6 Entropy change of a solid or liquid 8.7 Entropy change of an ideal gas 8.8 The reversible polytropic process for an ideal gas 8.9 Entropy change of a control mass duri 8.11 Principle of the increase of entropy 8.12 Entropy as a rate equation 第九章 Entropy Equation for A Control Volume 9.1 The second law of thermodynamics for a control volume 9.2 The steady-state procwss and the tran 9.1 The second law of thermodynamics for a control volume 9.2 The steady-state procwss and the transient procwss 9.3 The steady-sate single flow process 9.4 Principle of the increase of entropy 9.5 Efficiency 第十章 Available energy, reversible work 10.1 Available energy, reversible work and irreversibility 10.1 Available energy, reversible work and irreversibility 10.2 Availability and second-law efficiency
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