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Week
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Topics
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Teaching and Learning Methods and Techniques
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Study Materials
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1. Week
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VECTORS • Vector and Scalar Quantities • Adding Vectors • Subtracting Vectors • The Components of a Vector • Unit Vectors • Adding Vectors with The Graphical Method • Adding Vectors with The Parallelogram Method • Adding Vectors with The Component Method • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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2. Week
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UNIFORMLY ACCELERATED MOTION • Displacement and Average Velocity • Instantaneous Velocity • Acceleration • Motion with Constant Acceleration • Derived Two Equation for Motion with Constant Acceleration • Freely Falling Objects
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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3. Week
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UNIFORMLY ACCELERATED MOTION • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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4. Week
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NEWTON'S LAWS OF MOTION• Force Term and Newton’s First Law• Newton’s Second Law• Newton’s Third Law • Forces of Friction • Applications of Newton’s Second Law
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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5. Week
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NEWTON'S LAWS OF MOTION • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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6. Week
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WORK, POWER AND ENERGY • Definitation of Work • Power • Kinetic Energy and Potential Energy • Work-Energy Theorem • Conservation of Energy
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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7. Week
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WORK, POWER AND ENERGY • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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8. Week
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Midterm
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Question Answer
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Project (Including Preparation and presentation Time)
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9. Week
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LINEAR MOMENTUM • Linear Momentum and Impulse • Conversation of Momentum • Collisions • Collisions in 1D • Collisions in 2D • Center of Mass
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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10. Week
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ROTATIONAL MOTION • Angular Displacement • Angular Speed and Angular Acceleration • Rotational Motion under Constant Angular Acceleration
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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11. Week
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ROTATIONAL MOTION • Relations between Angular and Linear Quantities • Kinetic Energy of Rotation • Torque • Relation between Torque and Angular Acceleration • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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12. Week
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ANGULAR MOMENTUM and TORQUE • Rolling Motion of a Rigid Object • Angular Momentum of a Particle • Angular Momentum of a Rotating Rigid Object •Conservation of Angular Momentum • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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13. Week
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STATIC EQUILIBRIUM and ELASTICITY • First Condition for Equilibrium • Torque • Second Condition for Equilibrium • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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14. Week
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STATIC EQUILIBRIUM and ELASTICITY • Center of Gravity • Examples of Rigid Objects in Static Equilibrium • Elastic Properties of Solids • Problem Solving
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Lecture; Question Answer; Problem Solving; Discussion
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Presentation (Including Preparation Time)
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