Course Objectives
At the completion of this course, students will be able to
1)To explain the first law of thermodynamics.
2)To apply the first law of thermodynamics to state change of ideal gas..
3)To explain the second law of thermodynamics. To calculate the thermal efficiency of the Carnot cycle.
Rubric
| Ideal Level of Achievement (Very Good) | Standard Level of Achievement (Good) | Unacceptable Level of Achievement (Fail) |
To Explain the first law of thermodynamics. | The first law of thermodynamics can be explained perfectly. | The first law of thermodynamics can be explained. | Can not explain the first law of thermodynamics. |
To apply the first law of thermodynamics to state change of ideal gas. | The first law of thermodynamics can be applied to the state change of ideal gas. | The first law of thermodynamics can be roughly applied to the state change of ideal gas. | The first law of thermodynamics can not be applied to the state change of ideal gas. |
To explain the second law of thermodynamics. To calculate the thermal efficiency of the Carnot cycle | Explain the second law of thermodynamics and entropy. Various thermal processes can be expressed on T - s diagram. Calculus thermal efficiency can be calculated. | Explain the second law of thermodynamics. Calculus thermal efficiency can be calculated. | Can not explain the second law of thermodynamics. |
Assigned Department Objectives
学習・教育到達度目標 A-2
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JABEE 1(2)(d)(1)
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JABEE 1(2)(d)(2)
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JABEE 2.1(1)
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ディプロマポリシー 1
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Teaching Method
Outline:
The purpose of this class is to master basic handling concerning mutual conversion of heat and work. I will conduct lectures and exercises on the first law of thermodynamics, the second law of thermodynamics, the calculation method of thermal quantity accompanying the state change of ideal gas and Carnot cycle.
Style:
Lecture and exercise in Japanese.
Notice:
Occasionally, I will impose exercises, so be sure to submit it as a report by the following week.
The lesson plans may be changed according to the degree of understanding of students.
Can take makeup exam in need aid up to maximum of 60 points.
Characteristics of Class / Division in Learning
Course Plan
|
|
|
Theme |
Goals |
1st Semester |
1st Quarter |
1st |
Outline of class |
Understand the significance of learning thermodynamics.
|
2nd |
State quantity, unit and symbol |
Explain the definitions and units of various physical quantities used in thermodynamics. I can explain the meanings of closed system and open system, system equilibrium, state quantity etc etc.
|
3rd |
First law of thermodynamics |
I can explain the first law of thermodynamics. We can explain the amount of work that the closed system and the open system make to the outside world in pV diagram. For closed systems and open systems, you can calculate heat, work, internal energy, enthalpy using energy equation.
|
4th |
Ideal gas state change |
We can explain the relationship between pressure, volume and temperature of ideal gas using state equations.
|
5th |
Specific heat of ideal gas |
It is possible to explain the correlation between constant specific heat, constant pressure specific heat, specific heat ratio and gas constant.
|
6th |
Internal energy, enthalpy |
Explain the relationship between change in internal energy and enthalpy and temperature.
|
7th |
Reversible change of ideal gas (isothermal change, isobaric change, isovolume change) |
Understand the meaning of isovolume change, isovolume change, isothermal change, you can calculate state quantity, heat, work.
|
8th |
Midterm exam |
|
2nd Quarter |
9th |
Answers and review of the midterm exam |
|
10th |
Reversible change of ideal gas (adiabatic change, polytropic change) |
Understand the meanings of adiabatic change and polytropic change, you can calculate state quantity, heat, work.
|
11th |
Second law of thermodynamics |
I can explain the second law of thermodynamics. Reversible change and irreversible change can be understood.
|
12th |
Carnot cycle |
Understand the thermal efficiency of the cycle. Understand the Carnot cycle.
|
13th |
Entropy |
Understand the definition of entropy. Changes in entropy in individuals, liquids and ideal gases can be calculated.
|
14th |
T-s diagram |
The state change can be represented by T - s diagram.
|
15th |
Final exam |
|
16th |
Explanation of the final exam and questionnaire |
|
Evaluation Method and Weight (%)
| Examination | Presentation | Mutual Evaluations between students | Behavior | Portfolio | Other | Total |
Subtotal | 75 | 25 | 0 | 0 | 0 | 0 | 100 |
Basic Ability | 0 | 0 | 0 | 0 | 0 | 0 | 0 |
Technical Ability | 75 | 25 | 0 | 0 | 0 | 0 | 100 |
Interdisciplinary Ability | 0 | 0 | 0 | 0 | 0 | 0 | 0 |