Engineering B.S. - Computing Concentration

A Bachelor of Science degree with a major in Engineering and a Computing concentration requires the completion of the Elon Core Curriculum as well as the Major Requirements listed below.

Major Requirements

Math and Science courses: 28 sh

CHM 1110	GENERAL CHEMISTRY I with LAB	4 sh
PHY 2210	UNIVERSITY PHYSICS I	4 sh
PHY 2220	UNIVERSITY PHYSICS II	4 sh
MTH 1510	CALCULUS I	4 sh
MTH 2510	CALCULUS II	4 sh
MTH 2520	MULTIVARIABLE CALCULUS AND ANALYTIC GEOMETRY	4 sh
MTH 3510	DIFFERENTIAL EQUATIONS	4 sh

Engineering Foundations and Design courses: 33 sh

EGR 1210	GRAND CHALLENGES IN ENGINEERING I	3 sh
EGR 1220	ENGINEERING COMPUTING WITH MATLAB	2 sh
EGR 1230	GRAND CHALLENGES IN ENGINEERING II	2 sh
EGR 2060	ENGINEERING MECHANICS - STATICS	3 sh
EGR 2080	ENGINEERING MECHANICS - DYNAMICS	3 sh
EGR 2210	ENGINEERING DESIGN FOR SERVICE	3 sh
EGR 2260	STRUCTURE AND PROPERTIES OF MATERIALS	4 sh
PHY 3970	RESEARCH METHODS I	2 sh
PHY 3980	RESEARCH METHODS II	2 sh
EGR 4970	SENIOR ENGINEERING DESIGN I	2 sh
EGR 4971	SENIOR ENGINEERING DESIGN II	2 sh
EGR 0070	SENIOR COMPREHENSIVE EVALUATION	0
CSC 1300	COMPUTER SCIENCE I	4 sh

Social Science and Humanities courses: 8 sh

Choose one economics and one ethics course. These courses may count toward the Elon Core Curriculum requirements. Possible options include the following courses. For other courses in this category seek approval of the Director of Engineering Programs.

ECO 1000	PRINCIPLES OF ECONOMICS	4 sh
ECO 2300	STATISTICS FOR DECISION MAKING	4 sh
PHL 2120	ETHICAL PRACTICE	4 sh
PHL 2150	ETHICS AND DECISION MAKING	4 sh
REL 3480/PHL 3480	ENVIRONMENTAL ETHICS	4 sh

Additional Major Requirements: 4 sh

Choose at least one of the following courses: 4 sh

STS 2120	STATISTICS IN APPLICATION	4 sh
MTH 2310	LINEAR ALGEBRA	4 sh
MTH 2410	DISCRETE STRUCTURES	4 sh
STS 3410/MTH 3410	PROBABILITY THEORY AND STATISTICS	4 sh

Choose from the following courses at 2000-level or higher: 24 sh

CSC 2044	ORGANIZATION AND ARCHITECTURE	4 sh
CSC 2300	COMPUTER SCIENCE II	4 sh
EGR 2110	CIRCUIT ANALYSIS	3 sh
EGR 2120	CIRCUIT ANALYSIS LAB	1 sh
EGR 3100/PHY 3100	ENGINEERING THERMODYNAMICS	4 sh
EGR 3460	MICROELECTRONIC DEVICES AND CIRCUITS	4 sh
EGR 3210/CSC 3255	ROBOTICS	4 sh
EGR 3360	SIGNALS AND SYSTEMS	4 sh
EGR 3480	DIGITAL SYSTEMS	4 sh

The major will adopt the ABET student outcomes. They are:
(a) an ability to apply knowledge of mathematics, science, and engineering

(b) an ability to design and conduct experiments, as well as to analyze and interpret data

(c) an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability

(d) an ability to function on multidisciplinary teams

(e) an ability to identify, formulate, and solve engineering problems

(f) an understanding of professional and ethical responsibility

(g) an ability to communicate effectively

(h) the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context

(i) a recognition of the need for, and an ability to engage in life-long learning

(j) a knowledge of contemporary issues

(k) an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.

Total Credit Hours: 97