General Physics
class | topic | Contents of the lecture | professor |
1 | Vectors | -Definition of vector
-Vector Addition and Subtraction
-Vector Product: Inner Product and Cross Product | Prof. Hyoung-Soon Choi from KAIST
|
2 | Newton’s Laws of Motion | -Distance and Displacement
-Speed and Velocity (Scalar and Vector)
-Acceleration
-Momentum and Inertia (Newton’s First Law of Motion)
-Force (Time derivative of Momentum, Newton’s Second Law of Motion)
-Action and Reaction (Newton’s Third Law of Motion) | Prof. Hyoung-Soon Choi from KAIST |
3 | Motion in 1&2 -Dimension | -Uniform Velocity Motion (1-Dimension)
-Uniform Acceleration Motion
-Motion in which the direction of acceleration changes: Circular Motion | Prof. Hyoung-Soon Choi from KAIST
|
4 | Type of Force and examples | -Type of Force
-Analysis of motion of physical system with various types of force act | Prof. Hyoung-Soon Choi from KAIST
|
5 | Work and Energy | -Definition of Work
-Difference between Work and Energy
-Mechanical Energy Conservation and Conservative/Non-conservative force | Prof. Dong-Hee Kim from GIST |
6 | Circular Motion and Oscillation | -Physical quantity describing Uniform Circular Motion
-Equation of motion of Simple Harmonic Oscillation
-Simple Oscillation and Natural Frequency and Period of Simple Pendulums | Prof. Dong-Hee Kim from GIST |
7 | Gravity | -Newton’s Law of Gravitation and Gravitational Potential Energy
-Relationship between Kepler’s Law and Newton’s Law of Gravitation
-Gravity inside the Earth and Orbits of Satellites | Prof. Dong-Hee Kim from GIST |
8 | Collision and Fission | -Elastic/Inelastic Collision of two objects
-Center of mass Coordinate System | Prof. Dong-Hee Kim from GIST |
9 | Introduction of Rotational Motion | -Definition of Rotational Motion
-Variables, Angle, Angular velocity, and Angular acceleration
required for Rotational Motion
-Relationship between Rotational Motion and Linear Motion | Prof. Kee-Seong Park from DGIST |
10 | Angular Momentum and Torque | -Angular Momentum
-Torque | Prof. Kee-Seong Park from DGIST |
11 | Rotational Inertia and Equations of Rotational Motion | -Rotational Inertia
-Principle of Parallel axis
-Equations of Rotational Motion | Prof. Kee-Seong Park from DGIST |
12 | Physical Analysis of Rotational Motion | -Simple Oscillation and Physical Pendulum
-Rotational Motion about an axis in translation | Prof. Kee-Seong Park from DGIST |
13 | Thermodynamics/Statistical Physics I | -The Zeroth Law of Thermodynamics and Temperature
-Heat and The First Law of Thermodynamics | Prof. Jae-Up Kim from UNIST |
14 | Thermodynamics/Statistical Physics II | -Ideal Gas
-Motion of Gas molecules | Prof. Jae-Up Kim from UNIST |
15 | Thermodynamics/Statistical Physics III | -Entropy
-Irreversible Process | Prof. Jae-Up Kim from UNIST |
16 | Thermodynamics/Statistical Physics IV | -The Second Law of Thermodynamics
-Engines | Prof. Jae-Up Kim from UNIST |
