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Dynamics (Mech 102, Fall 2020, Lehigh U.)
Aug 09, 2021

Particle dynamics, work-energy, impulse-momentum, impact, systems of particles; kinematics of rigid bodies, kinetics of rigid bodies in plane motion, energy, momentum, eccentric impact.

Course Site:

https://coursesite.lehigh.edu/course/view.php?id=160457

Course Documents:

Course Information and Policies

Lecture Videos: Numbered as [lecture_number].[video_part_number]

28.2 - Forced Vibrations - Amplitude Range Problem
28.1 - Forced Vibrations - Resonance Problem
27.2 - Forced Vibrations - Introduction
27.1 - Vibrations - Energy Method Problem
26.2 - Energy Method in Vibrations - Introduction
26.1 - Vibrations - Small Oscillation Problem
25.3 - Vibrations - Problem involving a Rigid Body
25.2 - Vibrations - Problem
25.1 - Vibrations - Review and Introduction
24.3 - Vibrations - Introduction
24.2 - Conservation Principle Problem for Rigid Bodies
24.1 - Review of Rigid Body Kinetics Formulae
23.4 - Impact of Rigid Bodies - Problem
23.3 - Impact of Rigid Bodies - Introduction
23.2 - Rigid Body Kinetics - Conservation of Angular Momentum Problem
23.1 - Relative Angular Velocity for Rigid Bodies
22.2 - Conservation of Angular Momentum for Rigid Bodies - Introduction
22.1 - Work-Energy Principle for Rigid Bodies - Conservation of Total Energy Problem
21.3 - Work-Energy Principle for Rigid Bodies - Gear Problem
21.2 - Moment Due to a Couple and Radius of Gyration
21.1 - Work-Energy Principle for Rigid Bodies - Introduction
20.3 - Kinetics of Rigid Bodies - Rolling Disk on an Incline Problem
20.2 - Kinetics of Rigid Bodies - Sliding Truck Problem
20.1 - Kinetics of Rigid Bodies - Moment equation about points other than the center of mass
19.3 - Kinetics of Rigid Bodies - Translating Slab Problem
19.2 - Kinetics of Rigid Bodies - Pulley Problem
19.1 - Kinetics of Rigid Bodies - Moment Computation
18.2 - Kinetics of Rigid Bodies - Introduction
18.1 - Rigid Body Kinematics - Problem involving Motion Relative to a Rotating Frame
17.3 - Rigid Body Kinematics - Motion Relative to Rotating Frame - Problem 1
17.2 - Rigid Body Kinematics - Motion Relative to Rotating Frame - Introduction
17.1 - Planar Rigid Body Kinematics - Gear Problem
16.3 - Planar Rigid Body Kinematics - Instantaneous Center of Rotation Examples
16.2 - Planar Rigid Body Kinematics - Instantaneous Center of Rotation Introduction
16.1 - Planar Rigid Body Kinematics - Piston Problem Acceleration Analysis
15.3 - Planar Rigid Body Kinematics - Piston Problem Velocity Analysis
15.2 - Rigid Body Kinematics - Rotating and Translating Rigid Bodies
15.1 - Planar Rigid Body Kinematics - Contact Problem
14.3 - Planar Rigid Body Kinematics - Velocity and Acceleration
14.2 - Rigid Body Kinematics - Spatial Rigid Body Problem
14.1 - Rigid Body Kinematics - Velocity and Acceleration in Rotation about a Fixed Axis
13.3 - System of Particles - Work-energy Problem 2
13.2 - System of Particles - Work-enery Problem 1
13.1 - System of Particles - Work-energy Principle Introduction
12.3 - System of Particles - Problem involving Conservation of Angular Momentum
12.2 - System of Particles - Angular Momentum Introduction
12.1 - System of Particles - Problem on Conservation of Linear Momentum
11.3 - System of Particles - Center of Mass Problem
11.2 - System of Particles - Center of Mass and Conservation of Lin Momentum
11.1 - Coefficient of Restitution -Problem
10.3 - Impact - Problem
10.2 - Oblique Impact - Coefficient of Restitution
10.1 - Impact - Coefficient of Restitution
9.3 - Conservation Principle for Two-particle System - Problem
9.2 - Impulse and Momentum - Introduction
9.1 - Work Energy Principle - Conservation of Total Energy Problem
8.3 - Work Energy Principle - Conservative and Nonconservative Forces Problem
8.2 - Work Energy Principle - Conservative Forces and Potential Energy
8.1 - Work Energy Principle - Review and Problem
7.2 - Work Energy Principle - Introduction
7.1 - Angular Momentim - Orbital Transfer Problem
6.3 - Angular Momentum - Conservation Problem
6.2 - Angular Momentum - Introduction
6.1 - Newton's Laws of Motion - Problem 3
5.3 - Newton's Laws of Motion - Problem 2
5.2 - Newton's Laws of Motion - Problem 1
5.1 - Newton's Laws of Motion - Introduction
4.3 - Tangent-Normal Coordinates - Problem
4.2 - Radial-Transverse Coordinates - Problem
4.1 - Changing Coordinate Systems - Radial-Transverse, Tangent-Normal
3.2 - Curvilinear Motion - Nonrectangular Coordinates, Radial-Transverse
3.1 - Curvilinear Motion - Vectors, Problem
2.2 - Curvilinear Motion - Vectors
2.1 - Relative Rectilinear Motion - Constrained Motion Problem
1.3 - Relative Rectilinear Motion - Introduction
1.2 - Rectilinear Motion of Single Particle - Problem
1.1 - Rectilinear Motion of Single Particle - Theory
0.2 - Quick Overview of Coursesite
0.1 - Introduction and Discussion of Course Policy

Lecture Slides: The section numbers mentioned on the filename of the Lecture PDF are section numbers from the 11th edition of the book. Please refer to the table of contents of the 11th edition of the book to identify the names of the topics/sections if you need to look up the corresponding sections from an older version of the book with a different section numbering.

Lecture 1 - book sections 11.1, 11.2
Lecture 2 - book sections 11.2, 11.4
Lecture 3 - book sections 11.4, 11.5B
Lecture 4 - book sections 11.5, 11.5B
Lecture 5 - book sections 12.1
Lecture 7 - book sections 12.2, 13.1
Lecture 8 - book sections 13.1, 13.2
Lecture 9 - book sections 13.2, 13.3
Lecture 10 - book sections 13.3, 13.4
Lecture 11 - book sections 13.4, 14.1
Lecture 12 - book sections 14.1
Lecture 13 - book sections 14.1, 14.2
Lecture 14 - book sections 15.1, 15.2, 15.4
Lecture 15 - book sections 15.1, 15.2, 15.4
Lecture 16 - book sections 15.3, 15.4
Lecture 17 - book sections 15.4, 15.5
Lecture 18 - book sections 15.5, 16.1
Lecture 19 - book sections 16.1
Lecture 20 - book sections 16.1, 16.2
Lecture 21 - book sections 17.1
Lecture 22 - book sections 17.1, 17.2
Lecture 23 - book sections 17.2, 17.3
Lecture 24 - book sections 17.1, 17.2, 19.1
Lecture 25 - book sections 19.1, 19.2
Lecture 26 - book sections 19.2, 19.3
Lecture 27 - book sections 19.3, 19.4
Lecture 28 - book sections 19.3, 19.4

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Personal Wiki of Subhrajit Bhattacharya Articles / Dynamics (Mech 102, Fall 2020, Lehigh U.)
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Teaching Video Lectures Articles ? Mathematics ? Groups and their properties Higher Mathematics Physics ? Classical Physics Quantum/Relativistic Physics Technology ? Information Technology Arts ? Photography ? Poetry ? SITE MAP	Short URL for this page:[close] Press Ctrl+C to copy Teaching >> Dynamics (Mech 102, Fall 2020, Lehigh U.) Aug 09, 2021 Particle dynamics, work-energy, impulse-momentum, impact, systems of particles; kinematics of rigid bodies, kinetics of rigid bodies in plane motion, energy, momentum, eccentric impact. Course Site: https://coursesite.lehigh.edu/course/view.php?id=160457 Course Documents: Course Information and Policies Lecture Videos: Numbered as `[lecture_number].[video_part_number]` 28.2 - Forced Vibrations - Amplitude Range Problem 28.1 - Forced Vibrations - Resonance Problem 27.2 - Forced Vibrations - Introduction 27.1 - Vibrations - Energy Method Problem 26.2 - Energy Method in Vibrations - Introduction 26.1 - Vibrations - Small Oscillation Problem 25.3 - Vibrations - Problem involving a Rigid Body 25.2 - Vibrations - Problem 25.1 - Vibrations - Review and Introduction 24.3 - Vibrations - Introduction 24.2 - Conservation Principle Problem for Rigid Bodies 24.1 - Review of Rigid Body Kinetics Formulae 23.4 - Impact of Rigid Bodies - Problem 23.3 - Impact of Rigid Bodies - Introduction 23.2 - Rigid Body Kinetics - Conservation of Angular Momentum Problem 23.1 - Relative Angular Velocity for Rigid Bodies 22.2 - Conservation of Angular Momentum for Rigid Bodies - Introduction 22.1 - Work-Energy Principle for Rigid Bodies - Conservation of Total Energy Problem 21.3 - Work-Energy Principle for Rigid Bodies - Gear Problem 21.2 - Moment Due to a Couple and Radius of Gyration 21.1 - Work-Energy Principle for Rigid Bodies - Introduction 20.3 - Kinetics of Rigid Bodies - Rolling Disk on an Incline Problem 20.2 - Kinetics of Rigid Bodies - Sliding Truck Problem 20.1 - Kinetics of Rigid Bodies - Moment equation about points other than the center of mass 19.3 - Kinetics of Rigid Bodies - Translating Slab Problem 19.2 - Kinetics of Rigid Bodies - Pulley Problem 19.1 - Kinetics of Rigid Bodies - Moment Computation 18.2 - Kinetics of Rigid Bodies - Introduction 18.1 - Rigid Body Kinematics - Problem involving Motion Relative to a Rotating Frame 17.3 - Rigid Body Kinematics - Motion Relative to Rotating Frame - Problem 1 17.2 - Rigid Body Kinematics - Motion Relative to Rotating Frame - Introduction 17.1 - Planar Rigid Body Kinematics - Gear Problem 16.3 - Planar Rigid Body Kinematics - Instantaneous Center of Rotation Examples 16.2 - Planar Rigid Body Kinematics - Instantaneous Center of Rotation Introduction 16.1 - Planar Rigid Body Kinematics - Piston Problem Acceleration Analysis 15.3 - Planar Rigid Body Kinematics - Piston Problem Velocity Analysis 15.2 - Rigid Body Kinematics - Rotating and Translating Rigid Bodies 15.1 - Planar Rigid Body Kinematics - Contact Problem 14.3 - Planar Rigid Body Kinematics - Velocity and Acceleration 14.2 - Rigid Body Kinematics - Spatial Rigid Body Problem 14.1 - Rigid Body Kinematics - Velocity and Acceleration in Rotation about a Fixed Axis 13.3 - System of Particles - Work-energy Problem 2 13.2 - System of Particles - Work-enery Problem 1 13.1 - System of Particles - Work-energy Principle Introduction 12.3 - System of Particles - Problem involving Conservation of Angular Momentum 12.2 - System of Particles - Angular Momentum Introduction 12.1 - System of Particles - Problem on Conservation of Linear Momentum 11.3 - System of Particles - Center of Mass Problem 11.2 - System of Particles - Center of Mass and Conservation of Lin Momentum 11.1 - Coefficient of Restitution -Problem 10.3 - Impact - Problem 10.2 - Oblique Impact - Coefficient of Restitution 10.1 - Impact - Coefficient of Restitution 9.3 - Conservation Principle for Two-particle System - Problem 9.2 - Impulse and Momentum - Introduction 9.1 - Work Energy Principle - Conservation of Total Energy Problem 8.3 - Work Energy Principle - Conservative and Nonconservative Forces Problem 8.2 - Work Energy Principle - Conservative Forces and Potential Energy 8.1 - Work Energy Principle - Review and Problem 7.2 - Work Energy Principle - Introduction 7.1 - Angular Momentim - Orbital Transfer Problem 6.3 - Angular Momentum - Conservation Problem 6.2 - Angular Momentum - Introduction 6.1 - Newton's Laws of Motion - Problem 3 5.3 - Newton's Laws of Motion - Problem 2 5.2 - Newton's Laws of Motion - Problem 1 5.1 - Newton's Laws of Motion - Introduction 4.3 - Tangent-Normal Coordinates - Problem 4.2 - Radial-Transverse Coordinates - Problem 4.1 - Changing Coordinate Systems - Radial-Transverse, Tangent-Normal 3.2 - Curvilinear Motion - Nonrectangular Coordinates, Radial-Transverse 3.1 - Curvilinear Motion - Vectors, Problem 2.2 - Curvilinear Motion - Vectors 2.1 - Relative Rectilinear Motion - Constrained Motion Problem 1.3 - Relative Rectilinear Motion - Introduction 1.2 - Rectilinear Motion of Single Particle - Problem 1.1 - Rectilinear Motion of Single Particle - Theory 0.2 - Quick Overview of Coursesite 0.1 - Introduction and Discussion of Course Policy Lecture Slides: The section numbers mentioned on the filename of the Lecture PDF are section numbers from the 11th edition of the book. Please refer to the table of contents of the 11th edition of the book to identify the names of the topics/sections if you need to look up the corresponding sections from an older version of the book with a different section numbering. Lecture 1 - book sections 11.1, 11.2 Lecture 2 - book sections 11.2, 11.4 Lecture 3 - book sections 11.4, 11.5B Lecture 4 - book sections 11.5, 11.5B Lecture 5 - book sections 12.1 Lecture 7 - book sections 12.2, 13.1 Lecture 8 - book sections 13.1, 13.2 Lecture 9 - book sections 13.2, 13.3 Lecture 10 - book sections 13.3, 13.4 Lecture 11 - book sections 13.4, 14.1 Lecture 12 - book sections 14.1 Lecture 13 - book sections 14.1, 14.2 Lecture 14 - book sections 15.1, 15.2, 15.4 Lecture 15 - book sections 15.1, 15.2, 15.4 Lecture 16 - book sections 15.3, 15.4 Lecture 17 - book sections 15.4, 15.5 Lecture 18 - book sections 15.5, 16.1 Lecture 19 - book sections 16.1 Lecture 20 - book sections 16.1, 16.2 Lecture 21 - book sections 17.1 Lecture 22 - book sections 17.1, 17.2 Lecture 23 - book sections 17.2, 17.3 Lecture 24 - book sections 17.1, 17.2, 19.1 Lecture 25 - book sections 19.1, 19.2 Lecture 26 - book sections 19.2, 19.3 Lecture 27 - book sections 19.3, 19.4 Lecture 28 - book sections 19.3, 19.4 teaching mechanical
	Page last modified on August 09, 2021, at 10:22 AM EST. (cc) Subhrajit Bhattacharya