ee103project - EE103 Project Spring 2010(SEJ EE103 APPLIED...

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EE103 Project, Spring 2010 (SEJ) Page 1 / 6 EE103 APPLIED NUMERICAL COMPUTING Spring 2010 Instructor: Professor S.E. Jacobsen Computer Project ( Due: to be announced ) Each student may work with one other student of the class. You may sign up for such a “group-of-two” collaboration by going to (the latter link is not yet available; you’ll soon be informed when it is available). Only one student of the group should make the entries for both. That student should be prepared to enter the full names of each of the students, along with UIDs. Groups must be entered by 12 Noon, 5/25/2010 (if the above link is delayed in its availability, the 5/25 date will be changed). This project provides an example of the usefulness and importance of concepts of the course for engineering problems that may not be easily approached by means other than numerical methods. Coding is at a minimum since you will be provided with various functions that you are to use and that only require you to implement these appropriately. In fact, this project asks only that you understand the computational nature of the problem, and then to implement a few of the techniques by using the provided MatLab m-files and functions that implement various methods that have been taught in this course. Please keep in mind that engineers and computer scientists must obtain some experience, while in school, implementing what they learn. Your work must be your own or that of your group (if you are participating in a group). You may not discuss the project with others outside of your group, nor may you refer to any other sources (excluding MatLab manuals, Jacobsen's lecture notes and slides, and homework answers for only this course, Spring 2010). Your own efforts are sufficient to complete this project. For questions you may have, you may contact the TAs or SEJ (although not all questions may be answered).
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EE103 Project, Spring 2010 (SEJ) Page 2 / 6 Matlab m-files to be Used for this Project: 1. fzero: this function is a “sophisticated” version of the bisection algorithm. The
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ee103project - EE103 Project Spring 2010(SEJ EE103 APPLIED...

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