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Review – Chapters 12, 13, 14, and 15

Review – Chapters 12, 13, 14, and 15. Kinematics. Rectilinear motion. Constant acceleration. Circular motion. Curvilinear 2D motion. Rectangular coordinates. Normal & tangential coordinates. Polar coordinates. Relative Motion. Position. Velocity. Acceleration. Kinetics.

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Review – Chapters 12, 13, 14, and 15

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  1. Review – Chapters 12, 13, 14, and 15 Kinematics Rectilinear motion Constant acceleration Circular motion Mechanical Engineering

  2. Curvilinear 2D motion Rectangular coordinates Normal & tangential coordinates Polar coordinates Mechanical Engineering

  3. Relative Motion Position Velocity Acceleration Mechanical Engineering

  4. Kinetics Used to solve for acceleration or the forces causing the motion Equation of motion (2D) Rectangular coordinates Normal & tangential coordinates Polar coordinates Mechanical Engineering

  5. Work & Energy Method to solve problems involving force, velocity, and displacement Principle of Work & Energy Gravity: Work done Potential Energy Spring: Conservation of Energy (all forces are conservative forces) S(PE1) + S(KE1) = S(PE2) + S(KE2) Mechanical Engineering

  6. Impulse & Momentum Method to solve problems involving force, velocity, and time Principle of Impulse & Momentum Conservation of momentum (between particles) Impact (coefficient of restitution) Mechanical Engineering

  7. Always draw a Free Body Diagram (FBD) Mechanical Engineering

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