Lecture Notes | Dynamics and Control I | Mechanical Engineering

Bryan Owens and Frederick Jao prepared these notes specifically for MIT OpenCourseWare.

Course lecture notes.
SES #	TOPICS
I. Motion of a Single Particle
L1	Newton's Laws, Cartesian and Polar Coordinates, Dynamics of a Single Particle (PDF)
L2	Work-Energy Principle (PDF)
L3	Dynamics of a Single Particle: Angular Momentum (PDF)
II. Motion of Systems of Particles
L4	Systems of Particles: Angular Momentum and Work-Energy Principle (PDF)
L5	Systems of Particles: Example 1: Linear Momentum and Conservation of Energy, Example 2: Angular Momentum (PDF)
L6	Collisions (PDF)
III. 2D-Motion of Rigid Bodies
L7	2D-Motion of Rigid Bodies: Kinematics (PDF)
L8	2D-Motion of Rigid Bodies: Kinematics - Instant Centers; Kinetics (PDF)
L9	2D-Motion of Rigid Bodies: Kinetics, Parallel Axis Theorem (PDF)
L10	2D-Motion of Rigid Bodies: Falling Stick Example, Work-Energy Principle (PDF)
L11	2D-Motion of Rigid Bodies: Finding Moments of Inertia, Rolling Cylinder with Hole Example (PDF)
L12	2D-Motion of Rigid Bodies: Rolling Cylinder and Rocker Examples (PDF)
IV. Introduction to Lagrangian Dynamics
L13	Lagrangian Dynamics: Generalized Coordinates and Forces (PDF)
L14	Lagrangian Dynamics: Virtual Work and Generalized Forces (PDF)
L15	Lagrangian Dynamics: Derivations of Lagrange's Equations and Examples (PDF)
L16	Lagrangian Dynamics: Examples (PDF)
L17	Lagrangian Dynamics: Examples and Equilibrium Analysis (PDF)
L18	Lagrangian Dynamics: Examples and Equilibrium Analysis (cont.) (PDF)
L19	Lagrangian Dynamics: Examples and Equilibrium Analysis (cont.) (PDF)
V. Vibrations
L20	Vibrations: Second Order Systems with One Degree of Freedom - Free Response (PDF)
L21	Vibrations: Second Order Systems with One Degree of Freedom - Forced Response (PDF)
L22	Vibrations: Free Response of Multi-Degree-of-Freedom Systems (PDF)
L23	Vibrations: Two Degrees of Freedom Systems - Wilberforce Pendulum (PDF)
L24	Vibrations: Forced Response of Multi-Degree-of-Freedom Systems (PDF)