How to represent heat transfer Themody Don and vork done in a During Volum Use example Path show the system What nal Energy path thermodynamic How to use the rst lav transfer.work done.and interna energy change. Kinds of How to distinguish Thermodynamic adiabatic. e Processes and Processes 3 Ho Hea the Intemal Energy -QuizTHREE- only on its temperature. Calculations. The difference between molar heat heat capacities at constan and related nstant pres itie Processes for an Ideal 3 in calculations.How to analy Gas of Ouiz ortan homework.Answer the students in the questions. lectures What determines whether Direction Thermodynamic Irreversible Hea heat and how Thermodynam Combustion 3 Refrigerators engines Thermody the thermodynam sets limits on Quiz d the re involvin the eali for an The Cycle Cycle Interp 3 to to analyze Entropy. Entropy homework.Answer the students questions. 8 8 6 Thermodynamic Systems, Work Done During Volume Changes, Paths Between Thermodynamic States, Internal Energy and the First Law of Thermodynamics. 3 How to represent heat transfer and work done in a thermodynamic process. How to calculate the work done by a thermodynamic system when its volume changes. What is meant by a path between thermodynamic states. How to use the first law of thermodynamics to relate heat transfer, work done, and internal energy change. Use examples to show the application of the first law of thermodynamic s 7 Kinds of Thermodynamic Processes, Internal Energy of an Ideal Gas. -Quiz THREE- 3 How to distinguish among adiabatic, isochoric, isobaric, and isothermal processes. How do we know that the internal energy of an ideal gas depends only on its temperature. Four Thermodynami c Processes, and related Heat, Work and Internal Energy Calculations. Quiz. 8 Heat Capacities of an Ideal Gas, Adiabatic Processes for an Ideal Gas. 3 The difference between molar heat capacities at constant volume and at constant pressure, and how to use these quantities in calculations. How to analyze adiabatic processes in an ideal gas. Analysis of Quiz 4 and homework. Answer the students' questions. Two types of heat capacity and related calculations. adiabatic processes is important for analyzing Engine in the following lectures 9 Directions of Thermodynamic Processes, Heat Engines, Internal￾Combustion Engines, Refrigerators, The Second Law of Thermodynamics. -Quiz FOUR- 3 What determines whether a thermodynamic process is reversible or irreversible. What a heat engine is, and how to calculate its efficiency. The physics of internal-combustion engines. How refrigerators and heat engines are related. How the second law of thermodynamics sets limits on the engines and the refrigerators. Reversible or Irreversible Thermodynami c Processes, Engines, The 2nd Law and Engine Efficiency. Quiz. 10 The Carnot Cycle, Entropy, Microscopic Interpretation of Entropy. 3 How to do calculations involving the idealized Carnot cycle for engines and refrigerators. What is meant by entropy, and how to use this concept to analyze thermodynamic processes. Analysis of Quizs 4 and homework. Answer the students' questions. Carnot Cycle, Entropy