| Ideal Level of Achievement (Very Good) | Standard Level of Achievement (Good) | Unacceptable Level of Achievement (Fail) |
| Understanding of type and characteristics of basic thermal cycle of internal combustion engine | Explain the type and characteristics of the basic thermal cycle of the internal combustion engine. | You can see the type and characteristics of the basic thermal cycle of the internal combustion engine | You can not understand the type and characteristics of the basic thermal cycle of the internal combustion engine |
| Understand the elements that make up the refrigeration cycle, understand their respective functions | It is possible to recognize the elements constituting the refrigeration cycle and to explain each function. | It recognizes the elements that make up the refrigeration cycle and understands each function. | It recognizes elements constituting the refrigeration cycle, and understanding of each function is insufficient. |
| Understanding of definition and unit of various physical quantities used in thermodynamics | Explain the definitions and units of various physical quantities used in thermodynamics. | You can understand the definitions and units of various physical quantities used in thermodynamics. | You can not understand the definitions and units of various physical quantities used in thermodynamics. |
| Understanding of heat, work, internal energy, enthalpy using energy formula | You can calculate heat, work, internal energy, enthalpy using energy formula. | Using energy formula, you can know heat, work, internal energy, enthalpy. | Using energy formula, I can not understand heat, work, internal energy, enthalpy. |
| Understanding of the first law of thermodynamics | You can explain the first law of thermodynamics. | You can understand the first law of thermodynamics. | You can not understand the first law of thermodynamics. |
| Understanding of the relationship between pressure, volume and temperature of ideal gas based on state equations. | The relationship between pressure, volume and temperature of ideal gas can be explained by using state equations. | The relation of pressure, volume, temperature and state equation of ideal gas can be understood. | You can not understand the relationship of pressure, volume, temperature and state equation of ideal gas. |
| Understanding of constant specific heat, constant pressure specific heat, specific heat ratio | Specific specific heat, constant pressure specific heat, and specific heat ratio can be recognized and calculated. | Specific heat capacity, constant pressure specific heat, specific heat ratio can be known. | You do not know constant specific heat, constant pressure specific heat, specific heat ratio. |
| Understanding of equal pressure change, isovolume change, isothermal change, adiabatic change, polytrope change | Isobaric change, isovolume change, isothermal change, adiabatic change, polytrope change can be explained. | You can understand Isobaric change, isovolume change, isothermal change, adiabatic change, polytrope change. | Isobaric change, isovolume change, isothermal change, adiabatic change, polytrope change are not known. |