Readings

These chapters come from the text: Hildebrand, Francis. Advanced Calculus for Applications. 2nd ed. Englewood Cliffs: Prentice Hall, March 31, 1976. ISBN: 0130111899.

LEC #	TOPICS	READINGS
1-2	Number Systems and Algebra of Complex Numbers Elementary Complex Functions, Part 1	Algebra of Complex Numbers (10.1) Elementary Complex Functions (10.2, 10.3)
3-4	Elementary Complex Functions, Part 2 Branch Points and Branch Cuts	Analytic Functions (10.3, 10.4) Convergence of Power Series: Examples (4.1, 4.2) Line Integrals, Cauchy’s Formula (10.5, 10.6)
5-6	Analytic Functions Complex Integrals	Taylor Series, Laurent Series (10.7, 10.8) Singularities (10.9)
7-8	Cauchy’s Formula, Properties of Analytic Functions Taylor Series, Laurent Series	Singularities at Infinity (10.10, 10.11) The Residue Theorem (10.12)
9-10	Laurent Series (cont.) Properties of Laurent Series, Singularities	Evaluation of Real Definite Integrals (10.13) Handout 1 on Overview of Evaluation of (Real) Definite Integrals (PDF) Limiting Contours (10.14) Indented Contours (10.15)
11-12	Singularities (cont.) Residue Theorem	Indented Contours (10.15) Integrals Involving Branch Points (10.16)
14-15	Evaluation of Real Definite Integrals, Case I Evaluation of Real Definite Integrals, Case II	Singular Points of Linear Second-Order ODEs (4.3) The Method of Frobenius (4.4) Handout 2 on An Overview of the Fobenius Method (PDF)
16-17	Evaluation of Real Definite Integrals, Case III Evaluation of Real Definite Integrals, Case IV	The Method of Frobenius - Exceptional Cases (4.4, 4.5, 4.6)
18-19	Theorems for Contour Integration Series and Convergence	Bessel Functions (4.8) Properties of Bessel Functions (4.9)
20-21	Ordinary Differential Equations Singular Points of Linear Second-Order ODEs	Differential Equations Satisfied by Bessel Functions (4.10) Legendre Functions (4.12)
22-23	Frobenius Method Frobenius Method - Examples	Introduction to Boundary Value Problems (5.1) The Rotating String, The Rotating Shaft (5.2, 5.3)
24-25	Frobenius Method (cont.) and a “particular type” of ODE Bessel Functions	Orthogonality of Characteristic Functions (5.6) Expansions in Series of Orthogonal Functions (5.7)
26-27	Properties of Bessel Functions Modified Bessel Functions	Boundary Value Problems for Nonhomogeneous PDEs (5.8) Fourier Series (5.10) Complete Fourier Series (5.11)
29-30	Differential Equations Satisfied by Bessel Functions Introduction to Boundary-Value Problems	Fourier-Bessel Series (5.13) Legendre Series (5.14) The Fourier Integral (5.15)

LEC #

TOPICS

READINGS

1-2

Number Systems and Algebra of Complex Numbers

Elementary Complex Functions, Part 1

Algebra of Complex Numbers (10.1)

Elementary Complex Functions (10.2, 10.3)

3-4

Elementary Complex Functions, Part 2

Branch Points and Branch Cuts

Analytic Functions (10.3, 10.4)

Convergence of Power Series: Examples (4.1, 4.2)

Line Integrals, Cauchy’s Formula (10.5, 10.6)

5-6

Analytic Functions

Complex Integrals

Taylor Series, Laurent Series (10.7, 10.8)

Singularities (10.9)

7-8

Cauchy’s Formula, Properties of Analytic Functions

Taylor Series, Laurent Series

Singularities at Infinity (10.10, 10.11)

The Residue Theorem (10.12)

9-10

Laurent Series (cont.)

Properties of Laurent Series, Singularities

Evaluation of Real Definite Integrals (10.13)

Handout 1 on Overview of Evaluation of (Real) Definite Integrals (PDF)

Limiting Contours (10.14)

Indented Contours (10.15)

11-12

Singularities (cont.)

Residue Theorem

Indented Contours (10.15)

Integrals Involving Branch Points (10.16)

14-15

Evaluation of Real Definite Integrals, Case I

Evaluation of Real Definite Integrals, Case II

Singular Points of Linear Second-Order ODEs (4.3)

The Method of Frobenius (4.4)

Handout 2 on An Overview of the Fobenius Method (PDF)

16-17

Evaluation of Real Definite Integrals, Case III

Evaluation of Real Definite Integrals, Case IV

The Method of Frobenius - Exceptional Cases (4.4, 4.5, 4.6)

18-19

Theorems for Contour Integration

Series and Convergence

Bessel Functions (4.8)

Properties of Bessel Functions (4.9)

20-21

Ordinary Differential Equations

Singular Points of Linear Second-Order ODEs

Differential Equations Satisfied by Bessel Functions (4.10)

Legendre Functions (4.12)

22-23

Frobenius Method

Frobenius Method - Examples

Introduction to Boundary Value Problems (5.1)

The Rotating String, The Rotating Shaft (5.2, 5.3)

24-25

Frobenius Method (cont.) and a “particular type” of ODE

Bessel Functions

Orthogonality of Characteristic Functions (5.6)

Expansions in Series of Orthogonal Functions (5.7)

26-27

Properties of Bessel Functions

Modified Bessel Functions

Boundary Value Problems for Nonhomogeneous PDEs (5.8)

Fourier Series (5.10)

Complete Fourier Series (5.11)

29-30

Differential Equations Satisfied by Bessel Functions

Introduction to Boundary-Value Problems

Fourier-Bessel Series (5.13)

Legendre Series (5.14)

The Fourier Integral (5.15)

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Advanced Calculus for Engineers