HKDSE Physics – Newton’s Laws

HKDSE Physics Core 2
Chapter 2: Newton’s Laws | 牛頓運動定律

Billy Sir’s Smart Notes: Master the Three Laws of Motion, Force Analysis, and Connected Bodies.
由中大物理系碩士 Billy Sir 編寫，助你極速掌握牛頓三大定律及相連物體系統。

1. Newton’s First Law of Motion | 牛頓第一定律

An object will remain at rest or travel in uniform velocity unless it is acted by a net force. 除非受到淨力作用，否則物體將保持靜止或作勻速直線運動。

🛡️ Inertia & Mass | 慣性與質量

Inertia (慣性): The tendency to remain at rest or to move in uniform velocity.
Mass (質量): Mass is a measure of inertia. An object with a larger mass has a greater inertia, meaning it has a greater tendency to remain in its initial state of motion.
To keep a body moving with uniform motion, no net force is needed. A net force is only needed to change the velocity (cause acceleration).

2. Newton’s Second Law of Motion | 牛頓第二定律

Whenever a body experiences a net force, there must be an acceleration. Newton’s Second Law states the relationship between the net force and acceleration. 當物體受到淨力作用時，必會產生加速度。

🚀 The Core Equation | 核心公式

F_{net} = ma

1 Newton (N) is defined as the force required to give a 1 kg body an acceleration of 1 m s\(^{-2}\).

Scenario (情境)	Net Force Equation (淨力方程)
Free fall motion 自由落體 (Neglecting air resistance)	\( W = mg \implies mg = ma \implies a = g \)
Smooth inclined plane 光滑斜面	\( W \sin\theta = ma \implies a = g \sin\theta \)
Rough inclined plane (sliding down) 粗糙斜面 (向下滑)	\( W \sin\theta – f = ma \implies a = g \sin\theta – \frac{f}{m} \)

3. Newton’s Third Law of Motion | 牛頓第三定律

To every action force, there exists an equal in magnitude and opposite in direction reaction force. 每一個作用力，都有一個大小相等、方向相反的反作用力。

⚖️ Properties of Action-Reaction Pairs | 作用力與反作用力的特性

The two forces are equal in magnitude.
The two forces are in opposite direction.
The two forces are acting on two different bodies (They cannot cancel each other out!).
The two forces are of the same nature (e.g., both are gravitational, or both are contact forces).
Action and reaction must occur at the same time.

4. Connected Bodies | 相連物體

When two or more bodies are connected together (e.g., by a string), they share the same motion characteristics. 當兩個或以上物體相連時，它們共享相同的運動特徵。

🔗 Key Principles | 關鍵原則

Connected bodies must have the same magnitude of:

Displacement (位移)
Velocity (速度)
Acceleration (加速度)

⚙️ Finding the Common Acceleration | 尋找共同加速度

Treat the entire system as a single combined mass to find the common acceleration first:

F_{net} = (m_P + m_Q)a \implies a = \frac{F_{net}}{m_P + m_Q}

🧵 Finding Internal Forces (e.g., Tension) | 尋找內部力 (如張力)

After finding the common acceleration \(a\), isolate one of the blocks and apply Newton’s Second Law to that specific block.

For block P being pulled by tension \(T\):

$$ T = m_P a $$

For block Q being pulled by force \(F\) and held back by tension \(T\):

$$ F - T = m_Q a $$

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