psphysics1

PHYSICS 1 - FORCE, MOTION, WORK & ENERGY

One Dimensional Motion

Displacement

Average Velocity

Instantaneous Velocity

Acceleration

One Dimensional Motion with Constant Acceleration

� Derivation of Kinematic Equations of Motion

� Freely Falling Bodies

Two Dimensional Motion

Scalars and Vectors

Displacement, Velocity and Acceleration in 2-Dimensions

� Displacement

� Average Velocity

� Instantaneous Velocity

� Average Acceleration

� Instantaneous Acceleration

Projectile Motion

� Procedure for Solving Projectile Motion Problems

Force

Newton's First Law

Newton's Second Law

Newton's Third Law

Applications of Newton's Laws

Friction

Work and Energy

Work

Kinetic Energy and the Work Energy Theorem

Gravitational Potential Energy

Potential Energy Stored in a Spring

Choosing a Coordinate System

Conservation Laws

� Conservative and Non-Conservative Forces

� The Conservation of Mechanical Energy

� Non-Conservative Forces and the Work-Energy Theorem

Power

Momentum and Collisions

Momentum and Impulse

Conservation of Momentum

Collisions and Kinetic Energy

� Types of collisions

Head on Collisions and Glancing Collisions

Circular Motion and the Law of Gravity

Introduction

Angular Velocity and Acceleration

Formulae for Constant Angular Acceleration

Relationship Between Linear and Angular Quantities

Centripetal Acceleration

Newton's Law of Gravitation

Rotational Equilibrium and Dynamics

Torque

Another Condition for Equilibrium

Center of Gravity

Relation Between Torque and Angular Acceleration

Rotational Kinetic Energy

Angular Momentum

Vibrations and Waves

Simple Harmonic Motion

Elastic Potential Energy

Comparison with Circular Motion

The Simple Pendulum



			Outline Page




	SUBJECT SYLLABUS




Mathematics

College Algebra Plane Geometry Solid Geometry Trigonometry Vector Analysis Calculus 1 Calculus 2 Physics 1 Physics 2 Physics 3 Physics 4 Statistics & Pobability Advance Math Numerical Analysis Mechanics Differential Equation Thermodynamics
		Plane Geometry PHYSICS 1 - FORCE, MOTION, WORK & ENERGY One Dimensional Motion Displacement Average Velocity Instantaneous Velocity Acceleration One Dimensional Motion with Constant Acceleration � Derivation of Kinematic Equations of Motion � Freely Falling Bodies Two Dimensional Motion Scalars and Vectors Displacement, Velocity and Acceleration in 2-Dimensions � Displacement � Average Velocity � Instantaneous Velocity � Average Acceleration � Instantaneous Acceleration Projectile Motion � Procedure for Solving Projectile Motion Problems Force Newton's First Law Newton's Second Law Newton's Third Law Applications of Newton's Laws Friction Work and Energy Work Kinetic Energy and the Work Energy Theorem Gravitational Potential Energy Potential Energy Stored in a Spring Choosing a Coordinate System Conservation Laws � Conservative and Non-Conservative Forces � The Conservation of Mechanical Energy � Non-Conservative Forces and the Work-Energy Theorem Power Momentum and Collisions Momentum and Impulse Conservation of Momentum Collisions and Kinetic Energy � Types of collisions Head on Collisions and Glancing Collisions Circular Motion and the Law of Gravity Introduction Angular Velocity and Acceleration Formulae for Constant Angular Acceleration Relationship Between Linear and Angular Quantities Centripetal Acceleration Newton's Law of Gravitation Rotational Equilibrium and Dynamics Torque Another Condition for Equilibrium Center of Gravity Relation Between Torque and Angular Acceleration Rotational Kinetic Energy Angular Momentum Vibrations and Waves Simple Harmonic Motion Elastic Potential Energy Comparison with Circular Motion The Simple Pendulum Hosted by www.Geocities.ws