Mathematical Analysis, ENGR 2145

Spring 2024

A Sophomore Ignatian Residential College Course

Time & Location:

Sec. 1, J. Denenberg: TF, 9:30 am-10:45 am, Room: BNW 341

Sec. 2, J. Denenberg: TF, 11:00 am-12:15 pm, Room: BNW 341

Peer Learning Group: PLG Leaders:

Sec. 1, (T, rm NHS  411, 5:00 pm-6:15 pm)       
              TA: margaret.millar@student.fairfield.edu
Sec. 2, (W, rm BNW 254a ,11:00 am-12:15 pm)
              TAs: nicholas.murphy@student.fairfield.edu and joseph.borges@student.fairfield.edu
Sec. 3, (W, rm BNW 137, 2:00 pm-3:15 pm)     
              TA: nicole.reynolds@student.fairfield.edu

Equipment: Personal laptop (CPU: Intel Core i5 or equivalent, with MS Windows)

Instructor:  J. Denenberg, Ph.D, Adjunct Professor, Electrical & Biomedical Engineering

Email:                jdenenberg@fairfield.edu, jeffrey.denenberg@ieee.org

Web Site:         http:\\doctord.dyndns.org

Office:                BNW GR33 (I am often in BNW133 Tuesday afternoons & evenings)

Google Voice: (203) 513-9427 (Texting works)

Office Hours:  Fri 12:30-1:30 and Tues 3:30-4:30 in BNWGR33
                            or via Zoom (ID# 710 293 2408) by appointment

Textbooks:

1.      An Introduction to MATLAB Programming and Numerical Methods for Engineers
Author(s): Timmy Siauw and Alexandre Bayen

2.      “MATLAB A Practical Introduction to Programming and Problem Solving”,
4rd Ed. Author: Attaway

Software: MATLAB (download instructions are on BlackBoard)

Course Description:
In this course, as you reflect on the question of \Who Am I Called to be?" in your mentoring groups this semester, you will learn mathematical and numerical methods such as root finding, differentiation, integration, solve system of linear equations and through weekly reflection exercises (modeled on the Ignatian Examen) you will understand how to apply these methods to solve scientific problems. Additionally, the course will cover statistics including data analysis, data fitting, and interpolation. The programming language that will be used in this course is MATLAB.

Prerequisite(s): MATH 1142 or equivalent.
Corequisite(s):   ENGR 2145P (PLG).
Credit Hours:      3

Course Objectives:

1.      Learn and develop a foundational understanding of computer programming and how it is applied in the field of engineering.

2.      Develop an understanding of mathematics, numerical methods, and statistics especially relevant to the field of engineering.

3.      Encourage methodical, orderly, and disciplined study of engineering.

Course Outcomes:

1.      Show proficiency in MATLAB including the understanding of the workspace, using m-files, graphics and plotting, and vector manipulation. [I] (1)

2.      Demonstrate mastery of mathematical, numerical, and statistical engineering topics
such as matrix algebra, data analysis and statistics, data interpolation, curve fitting,
integration, differentiation, and optimization. [II] (2)

3.      Identify how programming and mathematical content applies to the field of engineering and understand the impact of engineering solutions in global economic, environmental, and societal contexts. [I,II] (4) knowledge

[ ] course outcome link to the Blooms Taxonomy levels goal
( ) link to ABET student outcomes

Grade Distribution:

Participation Quizzes Mathworks Certificates Homeworks (WS) Programing Assignments (PA) Midterm Exam Final Exam

5% 10% 10% 10% 20% 20% 25%

 

 

 

 

 

Attendance Policy: Students are responsible for acquiring notes and homework assignments from classmates in case of absence. Poor attendance - without valid excuse - will be reflected on grades.

Special Needs Assistance: If you have a documented disability and wish to discuss academic accommodations, please contact: Office of Accessibility (203) 254-4081 or email: acdc@fairfield.edu, and notify the course instructor within the first two weeks of the semester.

Important: This syllabus is subject to change depending on the mode of teaching online, hybrid, or in person. Course procedures and requirements may change with emerging conditions and public health requirements. All changes will be announced and posted on Blackboard.

 

Recorded Lectures

Tentative Course Outline:
The weekly coverage might change as it depends on the progress of the class.

Week	Content	Notes
Week 1 (2) 1-16 1-19	MATLAB Basics	What Is MATLAB.mp4, 1-MATLAB Intro
Week 2 (2) 1-23 1-26	Vectors and Matrices	2-Vectors&Matrices
Week 3 (2) 1-30 2-2	Scripts & Functions	3-MatlabProgrammingIntro
Week 4 (2) 2-6 2-9	Control Flow (Conditional Statements)	4-Conditionals
Week 5 (2) 2-13 2-16	Control Flow (Loops)	5-Loops&Vectorizing
Week 6 (1) F, 2-23 (Tues. is Mon.)	Advanced Functions	6-MatlabPrograms
Week 7 (2) 2-27 3-1	Symbolic & Plotting	SymbolicWorkshop, PlotsandGraphsLecture
	Spring Break 3-2 to 3-10
Week 8(2) 3-12 3-15	Intro to Simulink Midterm Exam: March 15	What-is-MATLAB-Simulink (simplilern.com) second order system
Week 9 (2) 3-19 3-22	Root Finding & Optimization	Bisection-Bracketing NR_OpenMethods_RootFinding
Week 10 (1) 3-26 Easter Break	Linear Algebra	LinearAlgebra
Week 11 (2) 4-2 4-5	Integration & Differentiation	Integration, NumDiffrentiation
Week 12 (2) 4-9 4-12	Data Analysis & Statistics	12-Statististics
Week 13 (2) 4-16 4-19	Data Analysis & Statistics	StatisticsExamples
Week 14 (2) 4-23 4-26	Interpolation & Regression Course Review	Interpolation, LinearRegression
Week 15(1) Final Exams 5-2 to 5-8	Sec. 1: 5/3/2024, Friday at 8:00 AM Sec. 2: 5/7/2024, Tues. at 11:30 AM

Note: classes are never cancelled for weather, class will be via Zoom (ID# 710 293 2408) as required.