This course is designed as a self-study program in differential calculus. The content is organized into "chapters" below.
chapter # | Topics |
---|---|
Preface | |
0 | The Spreadsheet |
1 | Philosophy, Numbers and Functions |
2 | The Exponential Function and Trigonometric Functions |
3 | Vectors, Dot Products, Matrix Multiplication and Distance |
4 | Area of a Parallelogram, Determinants, Volume and Hypervolume, the Vector Product |
5 | Vectors and Geometry in Two and Three Dimensions |
6 | Differentiable Functions, the Derivative and Differentials |
7 | Computation of Derivatives from their Definition |
8 | Calculation of Derivatives by Rule |
9 | Derivatives of Vector Fields and the Gradient in Polar Coordinates |
10 | Higher Derivatives, Taylor Series, Quadratic Approximations and Accuracy of Approximations |
11 | Quadratic Approximations in Several Dimensions |
12 | Applications of Differentiation: Direct Use of Linear Approximation |
13 | Solving Equations |
14 | Extrema |
15 | Curves |
16 | Some Important Examples and a Formulation in Physics |
17 | The Product Rule and Differentiating Vectors |
18 | Complex Numbers and Functions of Them |
19 | The Anti-derivative or Indefinite Integral |
20 | The Area under a Curve and its Many Generalizations |
21 | The Fundamental Theorem of Calculus in One Dimension |
22 | The Fundamental Theorem of Calculus in Higher Dimensions; Additive Measures, Stokes Theorem and the Divergence Theorem |
23 | Reducing a Line Integral to an Ordinary Integral and Related Reductions |
24 | Reducing a Surface Integral to a Multiple Integral and the Jacobian |
25 | Numerical Integration |
26 | Numerical Solution of Differential Equations |
27 | Doing Integrals |
28 | Introduction to Electric and Magnetic Fields |
29 | Magnetic Fields, Magnetic Induction and Electrodynamics |
30 | Series |
31 | Doing Area, Surface and Volume Integrals |
32 | Some Linear Algebra |
33 | Second Order Differential Equations |