**Instructor: J. D. Ward****Office:**611A Blocker**E-mail:**`jward@math.tamu.edu`**Phone:**845-7554**URL:**`http://www.math.tamu.edu/~joe.ward/`**Office Hours**: Tues. 2:30-4:00, Wed. 3:00-4:30 or by appointment**Computer Help Sessions**: Bloc 128: Mon.-Thurs. 7:00-10:00PM; Sun. 1:00-10:00PM**MA 308 Help Sessions**: Bloc 117: Sun.-Thurs. 8:00-10:00PM

**Catalogue Description and Syllabus:** MATH 308 * Differential Equations *

**Required Text**: W.E. Boyce and R. C. DiPrima
*
Elementary Differential Equations (Ninth Edition) Wiley 2009*.

**Prerequisites**
*
Math 251 or equivalent; knowledge of Matlab would be helpful*.

**Course Objectives**: to expose the students to the basics of linear ODEs and to nourish an appreciation for
the potential of application of ODEs to various engineering problems.

**Grading System & Tests:** Your grade will be
based on homework, two in-class tests which will be within one class day of (**February 20 &
April 3**) and a final exam (**Friday, May 2, 3:00-5:00**). The
homework will count for 25%, each in-class test for 25% and the final for 25%. Your letter grade
will be assigned this way: 90-100%, A; 80-89%, B; 70-79%, C; 60-69%,
D; 59% or less, F.

** Note: Q-drop deadline is Monday, April 14 (5 P.M.). **

**Make-up Policy:** I will give make-ups (or
satisfactory equivalents) only in cases authorized under *TAMU
Regulations*. In borderline cases, I will decide whether or not
the excuse is authorized. Also a student MUST contact me BEFORE missing an exam (only emergencies
allowed if contact after the exam).

**Copying Course Materials:** "All printed
hand-outs and web-materials are protected by US Copyright Laws. No
multiple copies can be made without written permission by the
instructor."

**Aggie Honor
Code: ** "An Aggie does not lie, cheat, or steal or
tolerate those who do."

**Homework:** You may consult with each
other on homework problem sets, BUT only submit work which is in your
own words AND be sure to cite any sources of help (either texts or
people). Late homework will *not* be accepted. The homework problems
will be announced in class and can be found on my homepage
http://www.math.tamu.edu/~jward

** Americans with Disabilities Act **

The Americans with Disabilities Act (ADA) is a federal anti-discrimination statute that provides comprehensive civil rights protection for persons with disabilities. Among other things, this legislation requires that all students with disabilities be guaranteed a learning environment that provides for reasonable accommodation of their disabilities. If you believe you have a disability requiring an accommodation, please contact the Department of Student Life, Services for Students with Disabilities, in Room 126 of the Koldus Building or call 845-1637.

** Academic Integrity Statement **

Honor Council Rules and Procedures

**MATH 308.** Differential Equations.(3-0) Credit 3.0. Ordinary differential equations, solutions using Laplace transforms, systems of differential equations.

** Suggested Schedule**

- Chapter 1: 1 days
- Section 1.1. Some Basic Mathematical Models; Direction Fields
- Section 1.2. Solutions of Some Differential Equations
- Section 1.3. Classification of Differential Equations

- Chapter 2: 4 days
- Section 2.1. Linear Equations; Method of Integrating Factors - one day
- Section 2.2. Seperable Equations - one day
- Section 2.3. Modeling with First Order Equations - one day
- Section 2.4. Differences Between Linear and Nonlinear Equations
- Section 2.5. Autonomous Equations and Population Dynamics
- Section 2.6. Exact Equations and Integrating Factors
- Do 2.4, 2.5 and 2.6 in two days, doing only one representative example from 2.5

- Chapter 3: 6 days
- Section 3.1. Homogeneous Equations with Constant Coefficients - one day
- Section 3.2. Solutions of Linear Homogeneous Equations; the Wronskian
- Section 3.3. Complex Roots of the characteristic equation
- Section 3.4. Repeated Roots; Reduction of Order
- Section 3.5. Nonhomogeneous Equations: Method of Undetermined Coefficients
- Section 3.6. Variation of parameters
- Section 3.7. Mechanical and Electrical Vibrations
- Section 3.8. Forced Vibrations

- Chapter 6: 6 days
- Section 6.1. Definition of the Laplace Transform - one day
- Section 6.2. Solution of Initial Value Problems- one day
- Section 6.3. Step Functions
- Section 6.4. Differential Equations with Discontinuous Forcing Functions
- Section 6.5. Impulse Functions
- Section 6.6. The Convolution Integral

- Chapter 7 : 6 days
- Section 7.1, 7.2. Introduction and Review of Matrices
- Section 7.3. Linear Algebraic Equations: Linear Independence, eigenvalues, Eigenvectors
- Section 7.4. Basic Theory of Systems of First Order Equations
- Section 7.5. Homogeneous Linear Systems With Constant Coefficients
- Section 7.6. Complex Eigenvalues
- Section 7.7. Fundamental Matrices
- Section 7.8. Repeated Eigenvalues
- Section 7.9. Nonhomogeneous Linear Systems

- Chapter 5: 4 days
- Section 5.1. Review of power Series
- Section 5.2. Series Solution Near an Ordinary Point, Part I
- Section 5.3. Series Solution Near an Ordinary Point, Part II
- Section 5.4. Euler Equations;Regular Singular Points
- Section 5.5. Series Solutions near a Regular Singular Point, Part I
- Section 5.6. Series Solutions near a Regular Singular Point, Part II

- The remaining few lectures may come from either Chapter 8 or Chapter 9.