| 課程大綱 Syllabus |
學生學習目標
Learning Objectives |
單元學習活動
Learning Activities |
學習成效評量
Evaluation |
備註
Notes |
序
No. | 單元主題
Unit topic |
內容綱要
Content summary |
| 1 | Introduction |
1. What is Physics?
2. Concepts, models, and theories
3. Units |
1. What is Physics?
2. Concepts, models, and theories
3. Units |
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| 2 | Vectors |
1. Components and unit vectors
2. Scalar (Dot) product
3. Vector (Cross) product |
1. Components and unit vectors
2. Scalar (Dot) product
3. Vector (Cross) product |
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| 3 | One dimensional kinetics |
1. Displacement and velocity
2. Instantaneous velocity
3. Acceleration |
1. Displacement and velocity
2. Instantaneous velocity
3. Acceleration |
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| 4 | Inertia and two dimensional motion |
1. Two dimensional motion
2. Uniform circular motion
3. Relative velocity |
1. Two dimensional motion
2. Uniform circular motion
3. Relative velocity |
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| 5 | Particle dynamics |
1. Newton's second law
2. Newton's third law
3. Friction |
1. Newton's second law
2. Newton's third law
3. Friction |
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| 6 | Work and energy |
1. Work
2. Energy
3. Power |
1. Work
2. Energy
3. Power |
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| 7 | Conservation of mechanical energy |
1. Potential energy
2. Conservative force
3. Conservation of mechanical energy |
1. Potential energy
2. Conservative force
3. Conservation of mechanical energy |
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| 8 | Linear momentum |
1. Conservation of linear momentum
2. Elastic collisions
3. Rocket propulsion |
1. Conservation of linear momentum
2. Elastic collisions
3. Rocket propulsion |
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| 9 | Systems of particles |
1. Center of mass
2. Motion of the center of mass
3. Work-energy theorem for a system of particles |
1. Center of mass
2. Motion of the center of mass
3. Work-energy theorem for a system of particles |
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| 10 | Systems of particles |
1. Center of mass
2. Motion of the center of mass
3. Work-energy theorem for a system of particles |
1. Center of mass
2. Motion of the center of mass
3. Work-energy theorem for a system of particles |
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| 11 | 期中測驗 |
複習及評量 |
複習及評量 |
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| 12 | Rotation of a rigid body |
1. Rotational kinematics
2. Moments of inertia of continuous bodies
3. Torque |
1. Rotational kinematics
2. Moments of inertia of continuous bodies
3. Torque |
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| 13 | Angular momentum and statics |
1. Angular momentum
2. Conservation of angular momentum
3.Conditions for static equilibrium |
1. Angular momentum
2. Conservation of angular momentum
3.Conditions for static equilibrium |
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| 14 | Oscillation |
1. Simple Harmonic Motion
2. Pendulum
3. Damped Oscillations |
1. Simple Harmonic Motion
2. Pendulum
3. Damped Oscillations |
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| 15 | Temperature, thermal expansion, and the ideal gas law |
1. Temperature
2. Thermal expansion
3. The ideal gas law |
1. Temperature
2. Thermal expansion
3. The ideal gas law |
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| 16 | First law of thermodynamics |
1. Specific heat
2. Work
3. First law of thermodynamics |
1. Specific heat
2. Work
3. First law of thermodynamics |
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| 17 | Kinetic theory |
1. The model of ideal gas
2. Kinetic interpretation of pressure and temperature
3. Equipartition of energy |
1. The model of ideal gas
2. Kinetic interpretation of pressure and temperature
3. Equipartition of energy |
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| 18 | Entropy and the second law of thermodynamics |
1. Heat engines
2. Reversible and irreversible processes
3. Entropy and the second law |
1. Heat engines
2. Reversible and irreversible processes
3. Entropy and the second law |
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