Engineering Mechanics - Dynamics

Engineering Mechanics - Dynamics

Scott Reckinger via YouTube Direct link

Lec13 - Particle Kinetics (Theory) Work & Kinetic Energy

13 of 39

13 of 39

Lec13 - Particle Kinetics (Theory) Work & Kinetic Energy

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

Engineering Mechanics - Dynamics

Automatically move to the next video in the Classroom when playback concludes

  1. 1 Lec01- Introduction to Dynamics (Theory) and Prerequisite Content Review
  2. 2 Lec02 - Particle Kinematics (Theory) for Rectilinear Motion
  3. 3 Lec03 - Particle Kinematics (Examples) for Rectilinear Motion
  4. 4 Lec04 - Particle Kinematics (Theory & Examples) for Curvilinear Motion using Cartesian Coordinates
  5. 5 Lec05 - Particle Kinematics (Theory) for Curvilinear Motion using Natural (N/T) Coordinates
  6. 6 Lec06 - Particle Kinematics (Examples) for Curvilinear Motion using Natural (N/T) Coordinates
  7. 7 Lec07 - Particle Kinematics (Theory) for Curvilinear Motion using Polar Coordinates
  8. 8 Lec08 - Particle Kinematics (Examples) for Curvilinear Motion using Polar/Cylindrical Coordinates
  9. 9 Lec09 - Particle Kinematics (Theory & Examples) Relative Motion
  10. 10 Lec10 - Particle Kinetics (Theory & Examples) Force-Mass-Acceleration using Cartesian Coordinates
  11. 11 Lec11 - Particle Kinetics (Theory & Examples) Force-Mass-Acceleration using Natural Coordinates
  12. 12 Lec12 - Particle Kinetics (Theory & Examples) Force-Mass-Acceleration using Polar/Cyl. Coordinates
  13. 13 Lec13 - Particle Kinetics (Theory) Work & Kinetic Energy
  14. 14 Lec14 - Particle Kinetics (Theory) Work, Potential Energy, & Non-Conservative Forces
  15. 15 Lec15 - Particle Kinetics (Examples) Work-Energy
  16. 16 Lec16 - Particle Kinetics (Theory) Linear Impulse-Momentum and Collisions
  17. 17 Lec17 - Particle Kinetics (Examples) Linear Momentum Conservation in Collisions
  18. 18 Lec18 - Particle Kinetics (Theory & Examples) Angular Momentum Conservation
  19. 19 Lec19 - Rigid Body Planar Kinematics (Theory) Relative Velocity
  20. 20 Lec20 - Rigid Body Planar Kinematics (Examples) Relative Velocity
  21. 21 Lec21- Rigid Body Planar Kinematics (Theory & Examples) Relative Acceleration
  22. 22 Lec22 - Rigid Body Planar Kinematics (Theory) Sliding Contacts
  23. 23 Lec23 - Rigid Body Planar Kinematics (Examples) Sliding Contacts
  24. 24 Lec24 - Rigid Body Planar Kinematics (Theory) Moving Reference Frames
  25. 25 Lec25 - Rigid Body Planar Kinetics (Theory & Examples) Mass Moment of Inertia
  26. 26 Lec26 - Rigid Body Planar Kinetics (Theory) Force-Mass-Acceleration
  27. 27 Lec27 - Rigid Body Planar Kinetics (Examples) Force-Mass-Acceleration
  28. 28 Lec28 - Rigid Body Planar Kinetics (Theory) Work-Energy
  29. 29 Lec29 - Rigid Body Planar Kinetics (Examples) Work-Energy
  30. 30 Lec30 - Rigid Body Planar Kinetics (More Examples) Work-Energy
  31. 31 Lec31- Rigid Body Planar Kinetics (Theory) Angular Impulse & Momentum
  32. 32 Lec32 - Rigid Body Planar Kinetics (Theory & Example) Impacts & Momentum Conservation
  33. 33 Lec33 - Rigid Body Planar Kinetics (Example) Impacts & Momentum Conservation
  34. 34 Lec34 - Rigid Body 3D Kinematics (Theory)
  35. 35 Lec35 - Rigid Body 3D Kinematics (Examples)
  36. 36 Lec36 - Rigid Body 3D Kinetics (Theory) Geometrical Properties
  37. 37 Lec37 - Rigid Body 3D Kinetics (Theory) Euler's Equations of Motion
  38. 38 Lec38 - Rigid Body 3D Kinetics (Examples) Euler's Equations of Motion
  39. 39 Lec39 - Review of Course Content Areas

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Someone learning on their laptop while sitting on the floor.