FAIRFIELD UNIVERSITY

School of Engineering

- EG 32 Syllabus -

Fundamentals of Engineering 2

Spring Semester, 2008

INSTRUCTOR: Jeffrey N. Denenberg, PhD.

Adjunct Professor: EE

LECTURERS: Interdisciplinary Faculty Team

EMAIL: Jeffrey.Denenberg@ieee.org

PHONE: 203-268-1021

WEBSITE: http://doctord.webhop.net

OFFICE HOURS: One hour prior to each class, McAuliffe 2^nd floor

CLASS HOURS: 6:30 p.m. - 9:30 p.m. Mondays (Section 01)

2:00 p.m. - 4:30 p.m. Tuesdays (Section 02)

LECTURE ROOM: McAuliffe 102 (Both Sections)

TEXTBOOK: Exploring Engineering, Academic Press, 2006 (ISBN 0-12-369405).

SUPPLEMENTAL: Engineering by Design, G. Voland, 2^nd Ed, Pearson Prentice Hall 2004 (ISBN 0131409190).
EG31 Syllabus

SUMMARY COURSE DESCRIPTION

To introduce freshmen to the profession and to fundamentals of engineering study, an overview is provided of engineering disciplines, professionalism, computer-based skills, engineering design analysis methods, and the engineering design process. Hands-on engineering activities are emphasized. Pre-requisites or co-requisites are MA 125 and PS 15.

COURSE LEARNING GOALS

EG32 introduces the student to the systematic design process and to the application of statistics to engineering data. The student is expected to conduct the active and diligent study needed to meet the following learning goals.

® Understand the purpose and methods of the systematic design process

® Appreciate how to work as part of a successful interdisciplinary engineering team

® Understand how a design specification of performance and characteristics supports the user need statement

® Understand how verification confirms that the design specification requirements are met

® Understand how to apply probability & statistics principles to engineering data

® Learn to communicate experimental procedures and results through written engineering laboratory reports

® Learn how engineering analysis is conducted with Mathcad

® Learn to apply Excel and Word in engineering written communications

® Learn to apply PowerPoint for oral design reviews

COURSE LEARNING OUTCOMES

After meeting the EG32 learning goals, the student is expected to have the following abilities.

® Prepare a user need statement for a hardware or software design

® Create function and morphological matrices

® Write design specification requirements

® Identify test, demonstration, measurement, or analysis for the verification of design requirements

® Prepare and present a team design review

® Prepare an engineering design report

® Prepare an engineering lab report including tabulation and charting of data

® Conduct a basic analysis with the aid of Mathcad

® Perform probability & statistics calculations on engineering data

STUDENT RESPONSIBILITIES

Attendance

EG32 is a fast-paced course to introduce the student to a range of subjects and skills. A substantial portion of a topic would be missed by being absent from even a single session.

® Students are required attend each regularly scheduled session.

® Releases are to be submitted to the instructor prior to missing a specific class for athletic participation.

® The student is responsible for acquiring all notes and assignments from any missed class.

® Field trip participation is not mandatory unless the student registers with the instructor to attend. If a student commits to a field trip but doesn’t attend, Professionalism points will be subtracted from the final grade.

Homework

True learning of a subject requires thoughtful and thorough completion of homework study and written assignments in a timely manner (hint: if you can teach the lesson…you’ve learned it). Also, since an underlying objective of EG32 is to encourage a sense of professional responsibility, students are required to turn in their assignments on time.

® Students are expected to spend nine or more hours per week on EG32 homework and project assignments.

® Written and problem assignments are to be prepared by each individual student unless specifically identified by the instructor as a team effort. Duplicate written assignments will be returned without a grade.

® Credit is to be given in footnote format for information you extract or download from published sources and incorporate into your lab or project reports.

® Assignments are due at the following lecture. If an assignment is one week late, 20% of the grade will be deducted. No grade will be given if an assignment is more than two weeks late,

® Essay and technical document homework assignments are to be word-processed.

® Since homework submittals are technical communication, grammar, spelling, appearance and organization will impact your grade. Multiple pages of written assignments are to be stapled (no paper clips or folded corners).

Quizzes

Quizzes encourage firm understanding of basic principles explained in the textbook sections and lecture notes assigned for homework. Frequent quizzes, along with homework assignments, assist timely identification and counseling of students at risk of not achieving a minimum final grade of C-.

® Closed-book quizzes are announced in the syllabus schedule.

® Closed-book quizzes are given during the first five minutes of the lecture.

® Open-text quizzes may be given unannounced at any time.

® Make-up quizzes will not be given.

Exams

® Mid-Term and Final Exams can be taken only during the scheduled sessions.

COURSE REQUIREMENTS

Materials

® The textbook is to be brought to every class for reference during lectures and open-book quizzes.

® Writing instruments and notebooks are to be brought to every class for recording lecture notes.

® A stapler is to be used for fastening multiple pages of homework assignments.

® A floppy disk may be used to save any computer files created in the classroom.

Email

® Each student is expected to have an email address for receiving class-related communications.

® Computer files generated in the classroom may be emailed to your personal account for retention and printing.

COURSE AND ASSIGNMENT GRADING

A final grade below C- is assumed to reflect failure on the part of the student to meet the Course Learning Goals.

Course and assignment grading is consistent with the procedure described in the Fairfield University catalog:

A	93 - 100	A-	90 - 92	B+	87 - 89	B	83 - 86	B-	80 - 82
C+	77 - 79	C	73 - 76	C-	70 - 72	D	60 - 69	F	00 - 59

The final grade is weighted as follows.

Final Exam	25%
Intermediate Exam	25%
Team Design Project	25%
Homework & Labs	20%
Professionalism	05%

EG31 Results Last Semester

Monday Evening Class - Final Grades, Tuesday Afternoon Class - Final Grades

EG32 Results Last Year

Monday Evening Class - Final Grades, Thursday Afternoon Class - Final Grades

INSTRUCTOR FEEDBACK

® Instructors are available for discussion of lecture topics or to provide feedback on graded assignments following each session or by appointment.

FREE STUDY ASSISTANCE

® Tutoring in engineering, math, and science courses is available between 6 p.m. and 9 p.m. in the MCA gallery or by special arrangement. Contact the School of Engineering office, x4147, MCA 106 for details.

® For help with math courses, contact the Math Center, x2515, BNW 12.

® For help with writing papers, contact the Writing Center, x2214, DMH 247.

® For online access to E-Source textbooks covering engineering skills, graphics, and applications, visit http://emissary.prenhall.com/esource/access/login.php. Log in under the user id and password provided in class.

SCHEDULE

Use of guest lecturers gives the student an opportunity to interact with practicing engineers having industry and research experience in their topic areas. Guest lecturers often provide copies of their presentations for home study but the student is still expected to actively follow the discussion and take written notes to record clarification or additional insight.

Session	Mon (01) 6:30-9:30	Tue (02) 2:00-4:30	EG32 Topic (Spring 2008)	Instructor	Reference	Assignment
I	Jan 14	Jan 15	EG31 Final Exam Reprise	Denenberg		Get ahead in your reading
	Jan 21		MLK - No Class
II	Jan 28	Jan 22	Systematic Design Process INTRO TO DESIGN	Denenberg	Text p. 309-322 Notes: ppt, pdf, html	Define your Project, Write a Problem Definition (PPT)
III	Feb 4	Jan 29	Team Design Project Planning INTERDISCIPLINARY TEAMING, S/W TOOL	Denenberg	Notes: ppt, pdf, html MS Project Tutorial	Prepare Initial Project Plan
IV	Feb 11	Feb 5	Probability & Statistics for Engineering (Excel) INTERDISCIPLINARY; S/W TOOL	Denenberg	GrinsSnell, Dukapatti, Prob/Noise	Prob/Statisics HW
V	Feb 19 Tuesday	Feb 12	Seminar – Active Noise Cancellation INTERDISCIPLINARY, S/W TOOL	Denenberg	Notes: ppt IEEE Potentials Article	TBD
	Feb 18	Feb 19	President’s Day - No Class
VI	Feb 25	Feb 26	Intermediate Exam
	Mar 3	Mar 4	Spring Recess - No Class
VII	Mar 10	Mar 11	MathCAD S/W TOOL; LAB PREP; INTRO TO MECH ENG	Denenberg	Notes: ppt, pdf, html Tutorial Use MathCAD for HW	Text: p. 71-74: #1,3,5,7 Text: p. 89-92: #15,16,23 Text: p. 114-117: #13
FT	TBD	TBD	Site Visit (Sikorsky Aircraft) CAREER SELECTION	Denenberg	Sikorsky Website (sikorsky.com) Visit Schedule, DressCode	Intern/Co-op Opportunities
VIII	Mar 17	Mar 18	Engineering Standards, Profession Engineer License CAREER SELECTION	Denenberg	Standards - wikipedia PE - NEEECS
IX	Mar 24	Mar 25	Materials Testing and Data Reporting [McA Mechanical Lab] INTRO TO MECH ENG; COMMUNICATION	Denenberg	Text: Ch. 11 (review)	Lab Report
X	Mar 31	Apr 1	Electronic Circuit Design [Lab] INTRO TO EE & INSTRUMENTS; LAB	Denenberg	OrCad, CircuitMaker, SWcadIII, Design Exercise Design Exercise Solution	Lab Report SWcadIII(At DoctorD)
XI	Apr 7	Apr 8	Design Analysis Procedures COMMUNICATIONS	Denenberg	Text p. 354-388	Prep Verification Testing
XII	Apr 14	Apr 15	Team Project Verification Testing [Lab] INTERDISCIPLINARY TEAMING	Denenberg		Prep Practice Presentation
XIII	Apr 21	Apr 22	Oral Design Presentation Practice COMMUNICATIONS; INTERDISCIPLINARY	Denenberg		Prep Final Presentation
XIV	Apr 28	Apr 29	Team Design Project Reviews & Reports COMMUNICATIONS; INTERDISCIPLINARY	Denenberg		Final Presentation & Report Due
XV	May 5 6:30 pm	May 6 9:00 am	Final Exam	Denenberg