Course Objectives
At the completion of this course, students will be able to:
1) Uunderstand the dynamics and solve problems using differential equation
2) Understand thermodynamics and find a cycle efficiency, a change of the entropy, the mean speed of gas molecules
Rubric
| Ideal Level of Achievement (Very Good) | Standard Level of Achievement (Good) | Unacceptable Level of Achievement (Fail) |
| Evaluation 1 | Can understand dynamics properly and can solve applied problems about dynamics. | Can understand dynamics and can solve basic problems about dynamics. | Cannot understand dynamics and cannot solve problems about dynamics. |
| Evaluation 2 | Can understand thermodynamics properly and can solve applied problems about thermodynamics. | Can understand thermodynamics and can solve basic problems about thermodynamics. | Cannot understand thermodynamics and cannot solve problems about thermodynamics. |
Assigned Department Objectives
JABEE B1
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ディプロマポリシー 3
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Teaching Method
Outline:
This course deals with developing the applied physical knowledge to the engineering field based on the knowledge of mathematics nad physics that students learned so far. At the first, we treat dynamics problems that students learned and introduce the solution by using knowledge of the mathematics that students learn newly. Next, we make explanations about the consept and example on thermodyanamic first and second laws. At the end, we make explanations about the consept of thermodynamical functions such as entorpy, and deepen thermodynamic systematic understanding.
Style:
Lectures by teachers alone are conducted.
Notice:
The recognition of credit requires 60 points or more rating. A person who has a rating of less than 60 points may be subjected to an approval test by request. As the result of the approval test, the evaluation is made
to be 60 points in the person who the mastery of the unit is recognized.
Course Plan
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|
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Theme |
Goals |
| 1st Semester |
| 1st Quarter |
| 1st |
First order liner differential equation |
1) Can solve fisrt order liner equation.
2) Can build equation of motion on dynamics problem.
|
| 2nd |
Equation of motion on circular motion |
1) Can explain the equation of motion on circular motion.
2) Can build equation of motion on circular motion.
|
| 3rd |
Conservation law of momentum |
1) Can explain the deffinition and the conservation law of momentum.
2) Can build a equation on dynamic problems.
|
| 4th |
Center of gravity |
1) Can explain the definition and the characteristic of center of gravity.
2) Can find center of gravity on a discrete body and a rigid body.
|
| 5th |
Moment of inertia |
1) Can explain a property of the moment of inertia.
2) Can find the moment of inertia for various rigid bodies.
3) can describe a equation of motion rotational motion for a rigid body.
|
| 6th |
Damped oscillation |
1) Can build equation of motion in problems of the dynamics.
2) Can solve a equation of motion as second order linear differential equation.
|
| 7th |
Problem exercise |
Can build and solve a differential equation for problems of the dynamics so far.
|
| 8th |
Midterm exam |
|
| 2nd Quarter |
| 9th |
Temperature and movement of heat |
1) Can explain difference between temperature and heat.
2) Can solve the differential equation using the cooling law of Newton in thermodynamic problems.
|
| 10th |
Equation of state and phase of substance |
1) Can explain three phases of substance and property of supercritical fluids.
2) Can find critical point and the Fan Dell Waals constant of a substance using Fan Dell Waals's state equation.
|
| 11th |
Molecular motion of gas |
1) Can find the mean free path of gas molecules.
2) Can find average rate of motion of gas molecules using velocity distribution law of Maxwell Boltzmann.
|
| 12th |
Thermodynamic first law, isochoric change, isobaric change, isothermal change and adiabatic change of gas |
Can find the amount of change of internal energy, heat capacity and work in various state changes of gas using the thermodynamic first law.
|
| 13th |
State change of gas, adiabatic process of an ideal gas and carneau cycle |
1) Can explain the state change of gas in each process of Carnot cycle.
2) Can find cycle efficiency of various thermomotors.
|
| 14th |
Thermodynamic second law and entropy |
1) Can explain second law of thermodynamics, principle of Thompson and principle of Clausius.
2) Can explain Carnot's theorem using second law of thermodynamic.
3) Can explain the definition and the property of the entropy.
4) Can find the amount of change of the entropy in a reversible process and an irreversible process.
|
| 15th |
Final exam |
|
| 16th |
Grading confirmation, question evaluation questionnaire |
|
Evaluation Method and Weight (%)
| Examination | Presentation | Mutual Evaluations between students | Behavior | Portfolio | Other | Total |
| Subtotal | 80 | 0 | 0 | 0 | 20 | 0 | 100 |
| Basic Ability | 40 | 0 | 0 | 0 | 10 | 0 | 50 |
| Technical Ability | 40 | 0 | 0 | 0 | 10 | 0 | 50 |