Newton’s Laws of Motion
Learning Time: 4-12 hours
Content: Newton’s Laws of Motion are the basic principles that explain the motion of objects and the effects of forces. This subject covers the first law (inertia), the second law (F=ma), the third law (action-reaction), friction, and inclined plane analysis. TYT focuses on fundamental laws and equilibrium, while AYT focuses on complex systems and applications. The current 2025 curriculum also covers space technology and robotic systems. Learning this subject forms the basis for solving mechanical problems.
- First Law of Motion (Inertia):
- Concept of Inertia
- Conditions for Remaining in Equilibrium
- Examples (Dynamic and Static Equilibrium)
- Second Law of Motion (F=ma):
- Force and Acceleration Relationship
- Effect of Mass and Acceleration
- Net Force Analysis
- Third Law of Motion (Action-Reaction):
- Action and Reaction Forces
- Examples (Rocket Propulsion, Walking)
- Relationship between Equilibrium and Momentum
- Types of Force:
- Gravitational Force
- Frictional Force (Kinetic and Static)
- Normal Force and Stress
- Applications:
- Inclined Plane Problems
- Multiple Force Systems
- Spacecraft Dynamics
- Modern Developments:
- Robotic Systems
- Safety Systems (Accident Analysis)
- Space Missions
- Affecting Factors:
- Mass and Velocity Change
- Ambient Resistance
- Angle of Force Application
Course Features
- Lectures 0
- Quizzes 0
- Duration 5 hours
- Skill level Expert
- Language English
- Students 15
- Assessments Yes
