Udemy - Engineering Dynamics by Michael Reynolds, PhD

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Udemy - Engineering Dynamics by Michael Reynolds, PhD (Size: 5 GB)
  1. Introduction to Kinematics.mp4 151.3 MB
  1. Introduction to Kinematics.srt 48 KB
  1. Introduction to Newton's 2nd Law.mp4 72.9 MB
  1. Introduction to Newton's 2nd Law.srt 28.4 KB
  1. Introduction to Rigid Body Kinematics.mp4 49 MB
  1. Introduction to Rigid Body Kinematics.srt 19.4 KB
  1. Introduction to Work - Energy.mp4 116.8 MB
  1. Introduction to Work - Energy.srt 48.5 KB
  1. Normal and Tangential Coordinates.mp4 72.3 MB
  1. Normal and Tangential Coordinates.srt 21.7 KB
  1. Rigid Body Kinetics - Translation.mp4 146.9 MB
  1. Rigid Body Kinetics - Translation.srt 57.8 KB
  1. Work - Energy for Rigid Body Systems.mp4 56.3 MB
  1. Work - Energy for Rigid Body Systems.srt 21.2 KB
  1.1 Lecture1 - Basic Concepts - Filled.pdf 113.1 KB
  1.1 Lecture15 - Work Energy filled.pdf 381.4 KB
  1.1 Lecture23 - Intro to Rigid Body Dynamics filled.pdf 140.7 KB
  1.1 Lecture33 - Rigid Body Kinetics - Translation filled.pdf 330.2 KB
  1.1 Lecture39 - Work Energy for Rigid Body Systems filled.pdf 202.5 KB
  1.1 Lecture5 - Normal and Tangential Coordinates filled 1.pdf 194.3 KB
  1.1 Lecture9 - Intro to Newtons Second Law filled.pdf 151.7 KB
  1.2 Lecture1 - Basic Concepts.pdf 53.9 KB
  1.2 Lecture15 - Work Energy.pdf 176.7 KB
  1.2 Lecture23 - Intro to Rigid Body Dynamics.pdf 18.1 KB
  1.2 Lecture33 - Rigid Body Kinetics - Translation.pdf 49.6 KB
  1.2 Lecture39 - Work Energy for Rigid Body Systems.pdf 202.5 KB
  1.2 Lecture5 - Normal and Tangential Coordinates filled 2.pdf 215.4 KB
  1.2 Lecture9 - Intro to Newtons Second Law.pdf 35.8 KB
  1.3 Lecture5 - Normal and Tangential Coordinates.pdf 133 KB
  10. Relative Acceleration Analysis with Rotating Axes Example.mp4 76.4 MB
  10. Relative Acceleration Analysis with Rotating Axes Example.srt 26.5 KB
  10.1 Dynamics2021Exam2.pdf 433.5 KB
  10.2 Dynamics2021Exam2Solution.pdf 2.4 MB
  10.3 Lecture32 - Relative Acceleration Analysis with Rotating Axes Example filled.pdf 293.8 KB
  10.4 Lecture32 - Relative Acceleration Analysis with Rotating Axes Example.pdf 35.4 KB
  2. Relative Velocity Analysis.mp4 120.7 MB
  2. Relative Velocity Analysis.srt 41.9 KB
  2. Rigid Body Kinetics - Translation Example.mp4 93.3 MB
  2. Rigid Body Kinetics - Translation Example.srt 35.5 KB
  2. Simple Newton's 2nd Law Examples.mp4 149.8 MB
  2. Simple Newton's 2nd Law Examples.srt 57.6 KB
  2. Straight Line Kinematics.mp4 117.7 MB
  2. Straight Line Kinematics.srt 42 KB
  2. Using Normal and Tangential Coordinates.mp4 203.9 MB
  2. Using Normal and Tangential Coordinates.srt 63.5 KB
  2. Work - Energy Examples.mp4 67.6 MB
  2. Work - Energy Examples.srt 27.6 KB
  2. Work - Energy for Rigid Body Systems Example 1.mp4 131.2 MB
  2. Work - Energy for Rigid Body Systems Example 1.srt 44.3 KB
  2.1 Lecture10 - Simple Netwons Second Law examples filled.pdf 728.8 KB
  2.1 Lecture16 - Work Energy examples filled.pdf 337.7 KB
  2.1 Lecture2 - Simple Straight Line Kinematics filled.pdf 298.1 KB
  2.1 Lecture24 - Relative Velocity Analysis filled.pdf 344.9 KB
  2.1 Lecture34 - Rigid Body Kinetics - Translation Example filled.pdf 303.8 KB
  2.1 Lecture40 - Work Energy for Rigid Body Systems Example 1 filled.pdf 391.3 KB
  2.1 Lecture6 - Using Normal and Tangential Coordinates filled.pdf 535.4 KB
  2.2 Lecture10 - Simple Netwons Second Law examples.pdf 444.1 KB
  2.2 Lecture16 - Work Energy examples.pdf 160.5 KB
  2.2 Lecture2 - Simple Straight Line Kinematics.pdf 129.5 KB
  2.2 Lecture24 - Relative Velocity Analysis.pdf 344.8 KB
  2.2 Lecture34 - Rigid Body Kinetics - Translation Example.pdf 64.9 KB
  2.2 Lecture40 - Work Energy for Rigid Body Systems Example 1.pdf 391.2 KB
  2.2 Lecture6 - Using Normal and Tangential Coordinates.pdf 279.4 KB
  3. More Examples with Newton's 2nd Law.mp4 79.1 MB
  3. More Examples with Newton's 2nd Law.srt 31.3 KB
  3. More Work - Energy Examples.mp4 154.2 MB
  3. More Work - Energy Examples.srt 55.1 KB
  3. Polar Coordinates.mp4 96.7 MB
  3. Polar Coordinates.srt 30.8 KB
  3. Projectile Motion.mp4 119.6 MB
  3. Projectile Motion.srt 37.4 KB
  3. Relative Velocity Analysis - Analytical Method.mp4 115.1 MB
  3. Relative Velocity Analysis - Analytical Method.srt 37.3 KB
  3. Rigid Body Kinetics - Rotation.mp4 199.4 MB
  3. Rigid Body Kinetics - Rotation.srt 60.1 KB
  3. Work - Energy for Rigid Body Systems Example 2.mp4 121.8 MB
  3. Work - Energy for Rigid Body Systems Example 2.srt 38.7 KB
  3.1 Lecture11 - More Netwons Second Law examples filled 1.pdf 387.4 KB
  3.1 Lecture17 - More Work Energy examples filled.pdf 373.9 KB
  3.1 Lecture25 - Relative Velocity Analysis Analytical Method filled.pdf 299.7 KB
  3.1 Lecture3 - Projectile Motion filled.pdf 350.7 KB
  3.1 Lecture35 - Rigid Body Kinetics - Rotation filled.pdf 381.3 KB
  3.1 Lecture41 - Work Energy for Rigid Body Systems Example 2 filled.pdf 138.2 KB
  3.1 Lecture7 - Polar Coordinates filled.pdf 204.2 KB
  3.2 Lecture11 - More Netwons Second Law examples filled 2.pdf 460.7 KB
  3.2 Lecture17 - More Work Energy examples.pdf 104.7 KB
  3.2 Lecture25 - Relative Velocity Analysis Analytical Method.pdf 123.6 KB
  3.2 Lecture3 - Projectile Motion.pdf 153.6 KB
  3.2 Lecture35 - Rigid Body Kinetics - Rotation.pdf 55 KB
  3.2 Lecture41 - Work Energy for Rigid Body Systems Example 2.pdf 90.4 KB
  3.2 Lecture7 - Polar Coordinates.pdf 33.6 KB
  3.3 Lecture11 - More Netwons Second Law examples.pdf 179.3 KB
  3.4 Lecture11a.wmv.mp4 117.3 MB
  4. An Additional Work - Energy Example.mp4 53.6 MB
  4. An Additional Work - Energy Example.srt 20 KB
  4. Examples with Normal and Tangential Coordinates.mp4 61.1 MB
  4. Examples with Normal and Tangential Coordinates.srt 24.4 KB
  4. General Motion Kinetics.mp4 78.7 MB
  4. General Motion Kinetics.srt 25 KB
  4. Impulse - Momentum for Rigid Body Systems.mp4 72.7 MB
  4. Impulse - Momentum for Rigid Body Systems.srt 23.1 KB
  4. More Projectile Motion.mp4 129.6 MB
  4. More Projectile Motion.srt 41.3 KB
  4. Pulley Systems.mp4 120.3 MB
  4. Pulley Systems.srt 39.6 KB
  4. Relative Velocity Analysis - Instant Center Method.mp4 108.2 MB
  4. Relative Velocity Analysis - Instant Center Method.srt 29.7 KB
  4.1 Lecture12 - Examples with Normal and Tangential Coordinates filled.pdf 231 KB
  4.1 Lecture18 - Extra Work Energy example filled.pdf 290.7 KB
  4.1 Lecture26 - Relative Velocity Analysis Instant Center Method filled part 2.pdf 372.5 KB
  4.1 Lecture36 - General Motion Kinetics filled.pdf 203.7 KB
  4.1 Lecture4 - More Projectile Motion filled.pdf 450.4 KB
  4.1 Lecture42 - Impulse Momentum for Planar Systems filled.pdf 98.7 KB
  4.1 Lecture8 - Pulley Systems filled.pdf 550.4 KB
  4.2 Lecture12 - Examples with Normal and Tangential Coordinates.pdf 111 KB
  4.2 Lecture18 - Extra Work Energy example.pdf 153.1 KB
  4.2 Lecture26 - Relative Velocity Analysis Instant Center Method filled.pdf 392.4 KB
  4.2 Lecture36 - General Motion Kinetics.pdf 66.7 KB
  4.2 Lecture4 - More Projectile Motion.pdf 177.3 KB
  4.2 Lecture42 - Impulse Momentum for Planar Systems.pdf 43.3 KB
  4.2 Lecture8 - Pulley Systems.pdf 357.9 KB
  4.3 Lecture26 - Relative Velocity Analysis Instant Center Method.pdf 271.6 KB
  4.4 Lecture26_part2.wmv.mp4 47.7 MB
  5. General Motion Kinetics - Example 1.mp4 191.9 MB
  5. General Motion Kinetics - Example 1.srt 70.7 KB
  5. Impulse - Momentum for Rigid Body Systems Examples.mp4 147.1 MB
  5. Impulse - Momentum for Rigid Body Systems Examples.srt 43.7 KB
  5. Introduction to Impulse - Momentum.mp4 99.1 MB
  5. Introduction to Impulse - Momentum.srt 36.9 KB
  5. More Examples with Normal and Tangential Coordinates.mp4 137.9 MB
  5. More Examples with Normal and Tangential Coordinates.srt 49.2 KB
  5. Relative Acceleration Analysis.mp4 166.7 MB
  5. Relative Acceleration Analysis.srt 59.8 KB
  5.1 FinalDynamicsSP21.pdf 526.2 KB
  5.1 Lecture13 - More Examples with Normal and Tangential Coordinates filled.pdf 233.6 KB
  5.1 Lecture19 - Impluse Momentum.pdf 121.3 KB
  5.1 Lecture27 - Relative Acceleration Analysis filled.pdf 374 KB
  5.1 Lecture37 - General Motion Kinetics Example 1 filled.pdf 490.1 KB
  5.2 FinalExamDynamics2021Solution.pdf 7.5 MB
  5.2 Lecture13 - More Examples with Normal and Tangential Coordinates.pdf 455.4 KB
  5.2 Lecture19 - Impulse Momentum filled.pdf 305.3 KB
  5.2 Lecture27 - Relative Acceleration Analysis.pdf 109.1 KB
  5.2 Lecture37 - General Motion Kinetics Example 1.pdf 40.8 KB
  5.3 Lecture43 - Impulse Momentum for Planar Systems Examples filled.pdf 141.8 KB
  5.4 Lecture43 - Impulse Momentum for Planar Systems Examples.pdf 103.9 KB
  6. Examples with Polar Coordinates.mp4 87.3 MB
  6. Examples with Polar Coordinates.srt 25.8 KB
  6. General Motion Kinetics - Example 2.mp4 62 MB
  6. General Motion Kinetics - Example 2.srt 22.9 KB
  6. Impulse - Momentum Examples.mp4 137.5 MB
  6. Impulse - Momentum Examples.srt 48.1 KB
  6. Relative Acceleration Analysis with Acceleration Polygon (Graphical method).mp4 166.4 MB
  6. Relative Acceleration Analysis with Acceleration Polygon (Graphical method).srt 65 KB
  6.1 Lecture14 - Examples with Polar Coordinates filled.pdf 281.1 KB
  6.1 Lecture20 - Impulse Momentum examples filled.pdf 390.5 KB
  6.1 Lecture28 - Relative Acceleration Analysis Example with Acceleration Polygon filled.pdf 392.2 KB
  6.1 Lecture38 - General Motion Kinetics Example 2 filled part 1.pdf 162.1 KB
  6.2 Lecture14 - Examples with Polar Coordinates.pdf 118.5 KB
  6.2 Lecture20 - Impulse Momentum examples.pdf 113.1 KB
  6.2 Lecture28 - Relative Acceleration Analysis Example with Acceleration Polygon.pdf 111 KB
  6.2 Lecture38 - General Motion Kinetics Example 2 filled part 2.pdf 385 KB
  6.3 Lecture38 - General Motion Kinetics Example 2.pdf 38.8 KB
  6.4 Lecture38b.wmv.mp4 103.7 MB
  7. Collisions.mp4 84.9 MB
  7. Collisions.srt 34.7 KB
  7. Relative Acceleration Analysis Example with Cross Product.mp4 89.1 MB
  7. Relative Acceleration Analysis Example with Cross Product.srt 31.2 KB
  7.1 Lecture21 - Collisions filled.pdf 236.8 KB
  7.1 Lecture29 - Relative Acceleration Analysis Example with Cross Product filled.pdf 251.4 KB
  7.2 Lecture21 - Collisions.pdf 34.3 KB
  7.2 Lecture29 - Relative Acceleration Analysis Example with Cross Product.pdf 33.3 KB
  8. Collisions Examples.mp4 135.8 MB
  8. Collisions Examples.srt 45.5 KB
  8. Relative Acceleration Analysis Example with Cross Product Example 2.mp4 102 MB
  8. Relative Acceleration Analysis Example with Cross Product Example 2.srt 37.1 KB
  8.1 Dynamics2021Exam1.pdf 356.2 KB
  8.1 Lecture30 - Relative Acceleration Analysis Example with Cross Product Example 2 filled.pdf 270.7 KB
  8.2 Dynamics2021Exam1Solution.pdf 3 MB
  8.2 Lecture30 - Relative Acceleration Analysis Example with Cross Product Example 2.pdf 31.8 KB
  8.3 Lecture22 - Collision Examples filled.pdf 518.5 KB
  8.4 Lecture22 - Collision Examples.pdf 170.4 KB
  9. Relative Acceleration Analysis with Rotating Axes.mp4 121.6 MB
  9. Relative Acceleration Analysis with Rotating Axes.srt 40.7 KB
  9.1 Lecture31 - Relative Acceleration Analysis with Rotating Axes filled.pdf 240.2 KB
  9.2 Lecture31 - Relative Acceleration Analysis with Rotating Axes.pdf 50.4 KB
  Bonus Resources.txt 307.2 B
  Get Bonus Downloads Here.url 204.8 B
  ▲ 187 total files

Description


Engineering Dynamics by Michael Reynolds, PhD
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English + srt | Duration: 43 lectures (20h 4m) | Size: 2.47 GB
Making a complicated subject easy - I have over 16 years of experience
What you'll learn:
This course is all about how forces on bodies in motion - everything from ballistics, to collisions, machines and more. This is a standard course taken by many engineering students.
I have included all my notes in two forms: unfilled (blank) and filled. I recommend the unfilled notes and then fill them in as you watch the videos.

Requirements
I would recommend my or any statics course prior to taking this course. Some background in Physics is also nice. But I try to teach you regardless of your background.

Description
This course is typically required of Mechanical Engineering students and may be taken by other engineering students. The course is all about MOTION - how to describe motion, what causes motion, and what forces come from motion. After watching my videos you will be able to analyze mechanical systems and you will begin to have the tools to design machines and other mechanical systems.

20+ hours of video instruction, all of my notes both filled and unfilled, everything I give to my students - all for you!

https://CoursePig.com

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