ENGINEERING AND TECHNOLOGY

ENGINEERING AND TECHNOLOGY 94

Biomedical Concentration (ENBI), Chemical Concentration (ENCH) Chem-Biology Concentration (ENBC), Civil Concentration (ENCI) Computer Concentration (ENCM), Electrical Concentration (ENEL) Industrial Concentration (ENIN), Mechanical Concentration (ENME) Ocean Concentration (ENOC) Associate in Science Degree in Engineering (AS_ENGN)

2 017 – 18 P R O G R A M S O F S T U DY

Knight Campus, Warwick only Successful completion of this program enables qualified students to transfer to an accredited engineering curriculum and apply most credits to a Bachelor of Science degree in engineering. This program provides a firm background in basic engineering principles. The curriculum includes a strong foundation in mathematics, the basic sciences and engineering fundamentals, as well as liberal arts courses that are applicable to most Bachelor of Science degree programs. Entrance to the program requires a mathematics placement examination at a pre-calculus level (student is ready to take MATH 1910) or the completion of CCRI Pre-calculus (MATH 1900). It is recommended that all applicants take a mathematics placement examination prior to the summer session. For courses to transfer to accredited engineering programs, it is important that students adhere to the required prerequisites and corequisites. When in doubt, refer to the course descriptions. Although most courses apply to the curriculum of many B.S. in engineering programs, the course sequences and schedules listed on the following pages will allow students to apply their studies toward one of nine University of Rhode Island engineering programs. These course sequences are for full-time, day students who enter in the fall semester, allowing them to complete the Associate in Science degree requirements at CCRI in four semesters and transfer to the University of Rhode Island as a junior. For the first semester, all engineering students take all the same courses. In all other semesters, the required courses will depend upon the desired engineering program. For most engineering programs, students are required to take courses only offered by URI. For CCRI students taking 12 or more credits, up to seven of these credits can be taken per semester at URI under the inter-institutional agreement at no additional cost. See description of the agreement on page 31 of the catalog. Note: Many courses require prerequisites, corequisites and/or testing. See course descriptions at the back of the catalog for details.

General Education Requirements Please see course descriptions for scheduling information. COURSE NO. COURSE TITLE

CREDITS

—

CHEM 1030 General Chemistry

5

—

ECON 2030 Principles of Microeconomics

3

—

ENGL 1010 Composition I

3

— MATH 1910 Calculus I

4

—

MATH 1920 Calculus II

4

—

MATH 2910 Calculus III

4

—

MATH 2990 Advanced Engineering Mathematics

4

—

PHYS 1100 Engineering Physics

4

— —

Humanities OR See page 22 for complete list of courses 3 Social Science Elective that fulfill the HUMN or SSCI attribute.

Total General Education Credits

34

Core Requirements (common to all concentrations) — ENGR 1020 Introduction to Engineering and Technology

3

ENGR 2160 Introduction to Engineering Analysis

2

Total Core Credits

5

—

Total Concentrations Credits – See following pages. 24–31 Total Program Credits 63–70

ENGINEERING AND TECHNOLOGY Associate in Science Degree in Engineering (AS_ENGN) (continued) Choose one concentration option to complete requirements. Biomedical (ENBI) COURSE NO.

COURSE TITLE

95

Chem-Biology (ENBC) COURSE NO. CREDITS

COURSE TITLE

CREDITS

—

BIOL 1002

Introductory Biology: Cellular

4

BIOL 2480

General Microbiology

4

CHEM 1100

General Chemistry II

5

Organic Chemistry I Lecture

3 3

—

BIOL 1010

Human Anatomy

4

—

—

BIOL 1020

Human Physiology

4

—

—

BIOL 1300

Orientation to Biotechnology

1

—

ENGR 2150

Introduction to Electrical Engineering

3

—

CHE 212 (URI)

Chemical Process Calculations

—

ENGR 2151

Introduction to Electrical Engineering Lab

1

—

CHE 272 (URI)

Introduction to Chemical Engineering Calculations 3

CHE 313 (URI)

Chemical Engineering Thermodynamics I

3

CHE 332 (URI)

Physical Metallurgy

3

General Education Elective

See page 22 for complete listing of courses that meet this requirement.

3

Total Chem-Biology Track Credits

31

Total Program Credits

70

— CHEM 2250

ENGR 2320

Digital Electronics

4

—

ENGR 2620

Linear Electrical Systems and Circuit Theory for Engineers

3

—

— —

—

—

ENGR 2621

Linear Circuits Lab

2

—

BME 207 (URI)

Introduction to Biomedical Engineering

3

—

BME 281 (URI)

Biomedical Engineering Seminar II

1

—

CHM 124 (URI)

Introduction to Organic Chemistry

3

Total Biomedical Concentration Credits

29


68

Chemical (ENCH)

COURSE NO. COURSE TITLE

CREDITS

—

CHEM 1100 General Chemistry II

5

—

CHEM 2250 Organic Chemistry I Lecture

3

—

CHEM 2260 Organic Chemistry II Lecture

3

—

ENGR 2150 Introduction to Electrical Engineering

3

—

ENGR 2151

—


1

CHE 212(URI)

Chemical Process Calculations

3

—

CHE 272 (URI)

Introduction to Chemical Engineering Calculations 3

—

CHE 313 (URI)

Chemical Engineering Thermodynamics I

3

—

CHE 332 (URI)

Physical Metallurgy

3

Total Chemical Concentration Credits

27


66

Civil (ENCI)

COURSE NO.

COURSE TITLE

CREDITS

—

ENGR 2050

Engineering Mechanics – Statics

3

—

ENGR 2060

Engineering Mechanics – Dynamics

3

—

ENGR 2150


3

—

ENGR 2151


1

— ENGR 2540

Mechanics of Materials for Engineering

3

—

GEOL 1010

General Geology

4

—

CVE 205 (URI)

Introduction to Civil Engineering Tools

2

— CVE 230 (URI)

Mechanics of Materials Lab

1

— ELE 220 (URI)

Passive and Active Circuits

3

— General Education Elective


3

Total Civil Track Credits

26


65


ENGINEERING AND TECHNOLOGY 96

Associate in Science Degree in Engineering (AS_ENGN) (continued) Choose one concentration option to complete requirements. Computer (ENCM) COURSE NO.

COURSE NO. CREDITS

COURSE TITLE

CREDITS

ENGR 1030

Engineering Graphics

3

— ENGR 2050


3

—

—

COMI 1510

Java Programming

3

—

ENGR 2150


3

—

ENGR 2060


3

—

ENGR 2151


1

—

ENGR 2150


3

ENGR 2151


1

ENGR 2540


3

— ENGR 2620


3

—

ENGR 2320

Digital Electronics

4

—

—

ENGR 2520

Microprocessor and Microcomputers

4

—

ENGR 2620


3

Linear Circuits Lab

2

—

PHYS 2110

Topics in Acoustics, Optics and Thermodynamics 3

PHYS 2111

Introduction to Acoustics and Optics Laboratory I 1

ISE 220 (URI)

Industrial and Systems Engineering Seminar

1

Manufacturing Processes and Systems

3

Manufacturing Processes and Systems Lab

1

Total Industrial or Mechanical Concentration Credits

28


67

Electrical (ENEL)

—

—

ENGR 2621

CSC 212 (URI)

Data Structures and Abstractions

4

—

General Education Elective


3

—

Total Computer Concentration Credits

27


66

—

—


COURSE TITLE

Industrial (ENIN) or Mechanical (ENME)

COURSE NO.

COURSE TITLE

CREDITS

— ISE 240 (URI) —

ISE 241 (URI)

Ocean (ENOC) COURSE NO.

COURSE TITLE

CREDITS

—

ENGR 2150


3

—

ENGR 2151


1

—

ENGR 2050


3

—

ENGR 2320

Digital Electronics

4

—

ENGR 2060


3

Microprocessor and Microcomputers

4

— ENGR 2150


3


3

—

ENGR 2151


1

—

ENGR 2540


3

—

PHYS 2110


—

PHYS 2111

—

ENGR 2520

— ENGR 2620 —

ENGR 2621

Linear Circuits Lab

2

—

MATH 1510

Scientific Programming

3

—

PHYS 2110


PHYS 2111

Introduction to Acoustics and Optics Laboratory I

1

Total Electrical Concentration Credits

24


63

—

— OCE 101 (URI)

Introduction to Acoustics and Optics Laboratory I 1 Introduction to Ocean Engineering

1 4

—

OCE 205 (URI)

Ocean Engineering Design Tools

—

OCE 206 (URI)

Ocean Instruments

4

Total Ocean Concentration Credits

26


65

ENGINEERING AND TECHNOLOGY

97
