Week

Course Content

Resource

1

VECTORS: Coordinate Systems and Frames of Reference, Some Properties of Vectors, Components of a Vector and Unit Vectors.


2

VECTORS: The Addition of Vectors, The Scalar Product of Two Vectors, The Vector Product of Two Vectors. Application Problems.


3

MOTION IN ONE DIMENSION: Average Velocity, Instantaneous Velocity, Acceleration, One Dimensional Motion With Constant Acceleration, Freely Folling Bodies.


4

MOTION IN ONE DIMENSION: One Dimensional Motion With Constant Acceleration, Freely Folling Bodies. Application Problems.


5

MOTİON IN TWO DIMENSIONS: The Displacement, Velocity, and Acceleration Vectors, Motion in Two Dimensions with Constant Acceleration, Projectile Motion.


6

MOTİON IN TWO DIMENSIONS: Uniform Circular Motion, Tangential and Radial Acceleration in Curvilinear Motion. Application Problems.


7

THE LAWS OF MOTION: The Concept of Force, Newton's 1st Law and Inertial Frames, Inertial Mass.


8

THE LAWS OF MOTION: Newtons 2nd Law, Weight, Newtons 3th Law, Some Applications of Newtons Laws.


9

THE LAWS OF MOTION: Newtons 2nd Law, Weight, Newtons 3th Law, Some Applications of Newtons Laws.


10

exam week


11

WORK AND ENERGY: Work and Kinetic Energy, Power, Application Problems.


12

POTENTIAL ENERGY AND CONSERVATION OF ENERGY: Conservative and Nonconservative Forces, Potential Energy, Conservartion of Mechanical Energy, Nonconservative Forces and the WorkEnergy Theorem.


13

POTENTIAL ENERGY AND CONSERVATION OF ENERGY: Potential Energy Stored in a Spring, Relationship Between Conservative Forces and Potential Energy, Conservation of Energy in General


14

Linear Momentum and Collisions:Linear momentum and its conservation, Impulse and Momentum, Collisions, Elastic and inelastic collisions in one dimension


15

Linear Momentum and Collisions: Twodimensional collisions, The center of mass, Motion of a system of particles.

