Engineering Mathematics I Grad |
Course Description:
Introduction to linear algebra, including vector spaces, linear dependence and independence, linear transformations, matrices and determinants. Topics include solution of systems of linear equations and eigen-value problems; complex variables, power series, complex integration, and residue theorem; and Fourier series and transforms. Elements of numerical analysis, numerical methods of systems of linear equations, and interpolation are also covered. 3 semester hours.
Text book:
-
Advanced Engineering Mathematics, Erwin Kreyszig, 10th Edition, Wiley
- Foundations of Applied Mathematics, Michael D. Greenberg, Prentice-Hall.
- Advanced Calculus for Applications, Francis B. Hildebrand, 2nd Edition.
- Applied Numerical Methods Using MATLAB, Yang, Cao, Chung and Morris, Wiley Inter-science
Lecture: Tuesday 6:00 - 9:25 PM
Syllabus | | Handouts | | Assignments | | Sample Exams | | Links |
Course Syllabus in pdf
GENERAL CONDUCT OF COURSE
- Homework will be assigned and collected weekly.
- 100% attendance is required.
- No makeup homework/test or exam will be given.
- Students are required to bring their test book and calculator to every class.
Mid-term test average Homework/Quizzes/Programming Final Examination | 50% 15% 35% |
Total: | 100% |
- Matrices
- Linear Systems
- Eigenvalue
- Complex Matrices
- Fourier Series
- Complex Numbers
- Power Series
- Taylor Series
- Numerical Methods
- Numerical Linear Systems
- Matrix Eigenvalues