I. Measurement

  1. International System of Units
  2. Conversions
  3. Accuracy, Precision, and Uncertainty

II. Vectors

  1. Magnitude and Direction
  2. Vector Math

III. Motion in One Dimension

  1. State of a Particle
  2. Influences of External Forces
  3. Newton’s 3 Laws

IV. Motion in 2 Dimensions – Planar Motion

  1. Vectors in Component Form
  2. Projectile Trajectories
  3. Circular Motion

V. Particle Dynamics

  1.  Concepts of Inertia
  2. Perspective & The Concept of Mass
  3. A Meaningful Force Diagram

VI. Details of Newton’s Equations of Motion

  1. Calculus and the Trajectory Problem

VII. Balance & Conservation Principles

  1. The Many Forms of Energy
  2. The Concept of Momentum
  3. The Visionary Physcist’s Bridge

VIII. The Extended Object

  1. Systems of the Infinitesimal
  2. Computing the Center-of-Mass
  3. Motion of the Rotating Body
  4. Trajectory of the Physical Cannon Ball

IX. Rotational Dynamics

  1. Force & Torque
  2. Linear & Angular Momentum
  3. Energy Associated with an Extended Body
  4. Finalizing Newton’s Equations
  5. Trajectories of Artillery Rounds

X. Rigid Bodies in Equilibrium

  1. Balancing the Concept of Equilibrium

XI. Oscillating Systems

  1. The Simple Harmonic Oscillator
  2. The Bleeding of Perpetual Moon

XII. Newton’s Law of Gravitation

  1. he Inquisitive Mind
  2. Determining the Gravitational Constant
  3. Gravitational Fields and Potential
  4. The Many-Body Problem

XIII. Thermodynamics

  1. Expansions and Contraction
  2. Heat Capacity
  3. Phase/State Transitions
  4. Heat Transport
  5. Behavior of Gases
  6. Properties of the Gas Ensemble
  7. Laws of Thermodynamics