近年來,普通物理的課本越長越厚。老師怎麼教?學生如何讀?物理系專業的課程,教科書也沒長到這般怪獸的厚度,這真的是最有效率的學習方法嗎?我不以為然......
Ten Questions we will discuss this semester
| ♠ | Q1: What is time? |
| Chapter 36 – Special Theory of Relativity | |
| ♠ | Q2: How to describe a dynamical system? |
| Chapter 4 – Dynamics: Newton’s Law of Motion Chapter 14 – Oscillations | |
| ♠ | Q3:Do forces always appear in pairs? |
| Chapter 9 – Linear Momentum | |
| ♠ | Q4: Is energy always conserved? |
| Chapter 7 – Work and Energy Chapter 8 – Conservation of Energy | |
| ♠ | Q5: How does a rotating top maintain its balance? |
| Chapter 10 – Rotational Motion Chapter 11 – Angular Momentum; General Rotation | |
| ♠ | Q6: Are black holes black? |
| Chapter 6 – Gravitation and Newton’s Synthesis Chapter 44 – Astrophysics and Cosmology | |
| ♠ | Q7: Is pressure in liquids a scalar, a vector or a tensor? |
| Chapter 13 – Fluids | |
| ♠ | Q8: What is propagating in traveling waves? |
| Chapter 15 – Wave Motion Chapter 16 – Sound | |
| ♠ | Q9: How is thermal equilibrium reached? |
| Chapter 17 – Temperature, Thermal Expansion, and the Ideal Gas Law Chapter 18 – Kinetic Theory of Gases | |
| ♠ | Q10: How to quantify uncertainty in a statistical system? |
| Chapter 19 – Heat and the First Law of Thermodynamics Chapter 20 –Second Law of Thermodynamics | |
Syllabus (Fall, 2013)
【Week 1】
Sep 17 (Tue) L1: Course introduction
Sep 19 (Thu) 中秋節
【Week 2】
Sep 24 (Tue) L2: What is time?
Sep 26 (Thu) L3: Lorentz transformation
【Week 3】
Oct 1 (Tue) L4: How to descibe a dynamical system?
Oct 3 (Thu) L5: Newton’s second law
【Week 4】
Oct 8 (Tue) L6: Simple harmonic motion
Oct 10 (Thu) National Celebration
【Week 5】
Oct 15 (Tue) L7: Why do forces appear in pairs?
Oct 17 (Thu) L8: Center of mass
【Week 6】
Oct 20 (Sun) Midterm (Q1-Q3)
Oct 22 (Tue) L9: Midterm Explanation
Oct 24 (Thu) In-class Discussion
【Week 7】
Oct 29 (Tue) L10: Is energy always conserved?
Oct 31 (Thu) L11: Conservative force and potential energy
【Week 8】
Nov 5 (Tue) L12: Energy, energy, energy
Nov 7 (Thu) L13: How does a rotating top maintain its balance?
【Week 9】
Nov 12 (Tue) L14: Moment of inertia
Nov 14 (Thu) L15: Coriolis effect
【Week 10】
Nov 19 (Tue) L16: Are black holes black?
Nov 21 (Thu) L17: Gravity and spacetime curvature
【Week 11】
Nov 26 (Tue) L18: Is pressure in liquids a scaler, a vector or a tensor?
Nov 28 (Thu) L19: Hagen-Poiseuille equation
【Week 12】
Dec 1 (Sun) Midterm (Q4-Q7)
Dec 3 (Tue) L20: Midterm Explanation
Dec 5 (Thu) L21: What is propagating in traveling waves?
【Week 13】
Dec 10 (Tue) L22: Wave equation
Dec 12 (Thu) L23: Wave equation 2
【Week 14】
Dec 17 (Tue) L24: Sound waves
Dec 19 (Thu) L25: How is thermal equilibrium reached?
【Week 15】
Dec 24 (Tue) L26: Heat and the first law of thermodynamics
Dec 24 (Tue) L26: Heat and the first law of thermodynamics
Dec 26 (Thu) L27: Heat and the first law of thermodynamics 2
【Week 16】
Dec 31 (Tue) L28: How to quantify uncertainty in a statistical system?
Jan 2 (Thu) L29: Entropy and the second law of thermodynamics
【Week 17】
Jan 7 (Tue) L30: Entropy and the second law of thermodynamics 2
Jan 9 (Thu) Video: The race for absolute zero
【Week 18】(Final Week)
Jan 12 (Sun) Final (Q8-Q10)
Jan 12 (Sun) Final (Q8-Q10)
