- Parametrizations
- Velocity, acceleration, speed, arclength
- Intgrals with respect to arclength
- The geometry of curves: tangent and normal vectors
- The cross product
- The geometry of space curves: Frenet vectors
- Curvature and torsion
- The Frenet-Serret formulas
- The classification of space curves
- Exercise for Chapter 2
- Graphs and level sets
- More surface in
$\mathbb{R}^3$ - The equation of a plane in
$\mathbb{R}^3$ - Open sets
- Continuity
- Some properties of continuous functions
- The Cauchy-Schwarz and triangle inequalities
- Limits
- Exercise for chapter 3
- The first-order approximation
- Conditions for differentiability
- The mean value theorem
- The
$C^1$ test - The Little Chain Rule
- Directional derivatives
-
$\nabla f$ as normal vector - Higher-order partial derivatives
- Smooth functions
- Max/Min: Critical points
- Classifying nondegenrate critical points
- Max/Min: Lagrange Multipliers
- Exercise for chapter 4
- Volume and iterated integrals
- The double integral
- Interpretations of the double integral
- Parametrization of surfaces
- Polar Coordinates
$(r, \theta)$ in$\mathbb{R}^2$ - Cylindrical coordinates
$(r, \theta, z)$ in$\mathbb{R}^3$ - Spherical coordinates
$(p, \phi , \theta)$ in$\mathbb{R}^3$
- Polar Coordinates
- Integrals with respect to surface area
- Triple integrals and beyond
- Exercise for chapter 5
- Continuity revisited
- Differentiability revisited
- The chain rule : a conceptual approach
- The chain rule : a computational approach
- Exercise for chapter 6
- Change of vaiables for double integrals
- A word about substitution
- Examples : Linear changes of variables, symmetry
- Change of variables for $n-$fold integrals
- Exercise for chapter 7