Topics

Chapter 1

Introduction to Measurement

1.1.The Nature of Science

1.2.Models Theories and laws1

1.3.Measurement and uncertainty

1.4 Units, Standards, and SI system

1.5Converting units

1.6 Order of Magnitude: rapid estimation

1.7Dimensions and Dimensions Analysis

Chapter 2

Kinematics in one dimension

2.1 Reference Frames and Displacement
2.2 Average velocity
2.3 Instantaneous velocity
2.4 Acceleration
2.5 Motion at Constants Acceleration
2.6 Solving Problem
2.7 Falling objects
2.8 Use of calculus: variable acceleration

Chapter 3

Kinematics in Two Dimension

3.1 Vectors and Scalars
3.2 Addition of Vectors Graphical Method
3.3 Subtraction of Vector, and Multiplication of Vector by Scalar
3.4 Adding vectors by components
3.5 Unit Vectors 3.5
3.5 Vector Kinematics
3.6 Projectile Motion
3.8 Solving Problems in Projectile Motion
3.9 Uniform Circular Motion
3.10 Relative Velocity

Chapter 4

Newton’s Law of Motion

4.1 Force
4.2 Newton’s First Laws of Motion
4.3 Mass
4.4 Newton’s Second Laws of Motion
4.5 Newton Third of Motion
4.6 Weight The force of Gravity: the Normal Forrce
4.7 Solving Problems with Newton’s Laws: Free body Diagram
4.8 Problem solving General Approach

Chapter 5

Further application of Newton’s Laws

5.1 Application of Newton’s Laws evolving friction
5.2 Dynamics of Uniform Circular Motion
5.3 Banked and unbanked highway curve

Chapter 6

Newton’s Law of universal Gravitation

6.1 Newton’s Law of Universals
6.2 Vector form of ???
6.3 Gravitational near to the Earth Surface: Geophysical application
6.4 Satellite and Weightiness
6.5 Keplers Law and Newton’s Synthesis
6.6 Gravitational Fields
6.7 Types of Force in Nature

Chapter 7

Work and Energy

7.1 Work down by a Constant Force
7.2 Scalar product of two vectors
7.3 Work down Varying Force
7.3 Work Done by varying force (continue) principle
7.4 Kinetic Energy and the work Energy

Chapter 8

Conservations of Energy

8.1 conservative Non- conservative forces
8.2 Potential Energy
8.3 Mechanical Energy and its conservation
8.4 Problem Solving using Conservation of Energy
8.5 The Laws of Conservation of Energy
8.6 Energy Conservation with dissipative force
8.7 Gravitational Potential Energy and Escape Velocity
8.8 Power

Chapter 9

Linear Momentum and Collisions

9.1 Momentums and its relation force
9.2 Conservation of momentum
9.3 Collusion and Impulse
9.4 Conservations of Energy
9.5 Elastic Collusion in One dimension
9.6 Inelastic Collusion
9.7 Collusion in two and Three Dimension
9.8 Center of Mass
9.9 Center of Mass in translation motion
9.10 System of Variable Mass

Chapter 10

Rotation Motion about a Fixed Axis

10.1 Angular Quantity
10.2 Kinematics equation for uniformly accelerated Rotational motion
10.3 Rolling Motion without Slipping
10.4 Vector nature of angular momentums
10.5 Torque
10.6 Rotation Dynamics: Torque and Rotational inertia
10.7 Solving Problem In rotational Dynamic
10.8 Determining Moment of Inertia
10.9 Angular momentum and its conservation
10.10 Rotational Kinetic energy
10.11 Rotational Plus Translation Motion: Rolling

Chapter 11

General Rotation

11.1 Vector cross product
11.2 The Torque Vector
11.3 Angular Momentums of particle
11.4 Angular momentum and torque for a system of particle

Hosted by www.Geocities.ws