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My Jupyter Book
Welcome to Modern Classical Mechanics
Week 1 - Overture: What is Classical Physics?
Week 1 - Notes: Introduction to Classical Mechanics
Week 2 - Computing as a tool for science
Week 2 - Notes: Mathematical Preliminaries
Week 3 - What is Mathematical Modeling?
Week 3 - Notes: Making Classical Models
Week 4 - Why does fluid drag complicate things?
Week 4 - Notes: Equations of Motion
Week 5 - Conservation Laws
Week 5 - Notes: Conservation of Energy
Week 6 - Stability and Equilibria
Week 6 - Notes: Stability and Energy
Week 6 - Notes: Linear and Angular Momentum
Week 7 - Nonlinear Dynamics
Week 7 - Notes: Critical Points; Phase Space; Trajectories
Week 8 - Oscillations
Week 8 - Notes: Oscillators and Modeling Oscillations
Week 9 - Driven Oscillators and Resonance
Week 9 - Notes: Driven Oscillations
Week 10 - Chaotic Dynamics
Week 10 - Activity: Modeling Chaotic Systems
Week 11 - Calculus of Variations
Week 11 - Notes: The Euler-Lagrange Equation
Week 12 - The Principle of Least Action
Week 12 - Notes: Introduction to Lagrangian Mechanics
Week 13 - Lagrangian Mechanics
Week 13 - Notes: Examples of Lagrangian Mechanics
Homework 1 (Due 24 Jan)
Homework 2 (Due 31 Jan)
Homework 3 (Due 07 Feb)
Homework 4 (Due 17 Feb)
Homework 5 (Due 14 Mar)
Homework 6 (Due 21 Mar)
Homework 7 (Due 28 Mar)
Homework 8 (Due 18 Apr)
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