Degree Program

ENGINEERING SCIENCE
A.S. Degree - Transfer Program

Department:Engineering Science and Physics

School(s): Science, Technology, Engineering & Math (STEM)

MCC Program Code: EN01
CIP Code: 14.0101
NYSED Code (BRI): 01211
Admissions

Apply to this Major.

New, Transfer, or Re-admit students should contact Admissions at (585) 292-2200 or admissions@monroecc.edu.

Request a Change of Major.


This program's design is based on: New MCC General Education

Description
The Engineering Science Program at MCC is designed to prepare students for transfer to a four-year engineering school. The courses in the program are equivalent to the first two years of study for a bachelors degree in engineering. Students may choose any of the following tracks to complete their A.S. Degree in Engineering Science at MCC: Aeronautical/Mechanical Engineering, Biomedical Engineering, Chemical Engineering, Civil Engineering, Computer Engineering, Electrical Engineering, Environmental Engineering, or Industrial Engineering.

Program Learning Outcomes
Aeronautical/Mechanical Engineering Track (EN02)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
9. Design mechanical systems
10. Fabricate mechanical prototypes
11. Interface electronic circuitry to mechanical systems
12. Analyze static mechanical systems
13. Analyze dynamic mechanical systems
14. Assess the thermal properties of systems
15. Analyze the mechanical properties of materials

Biomedical Engineering Track (EN06)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
Note: In Biomedical Engineering, students have the option of specializing in Biomechanics or Electrical Signals and Systems.
9. Design mechanical or electrical systems
10. Fabricate mechanical or electrical prototypes
11. Analyze static mechanical or electrical systems
12. Analyze dynamic mechanical or advanced electrical systems
13. Use engineering principles to analyze a biological system capably

Chemical Engineering Track (EN03)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
9. Design mechanical systems
10. Fabricate mechanical prototypes
11. Analyze static mechanical systems
12. Use engineering principles to analyze the chemical components of an engineering system capably

Civil Engineering Track (EN07)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
9. Design mechanical systems
10. Fabricate mechanical prototypes
11. Analyze static mechanical systems
12. Analyze dynamic mechanical systems
13. Assess the thermal properties of systems
14. Analyze the mechanical properties of materials

Computer Engineering Track (EN04)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
9. Compose computer programs using a high level programming language
10. Apply efficient data structures in computer programs
11. Interface embedded computer systems with electronic circuitry
12. Analyze digital electronic systems
13. Analyze analog electrical systems
14. Fabricate electronic prototypes

Electrical Engineering Track (EN05)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
9. Compose computer programs using a high level language
10. Program embedded computer systems
11. Interface electronic circuitry with mechanical systems
12. Analyze digital electronic systems
13. Analyze analog electrical systems
14. Fabricate electronic prototypes

Environmental Engineering Track (EN08)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
9. Design mechanical systems
10. Fabricate mechanical prototypes
11. Analyze static mechanical systems
12. Analyze the mechanical properties of materials
13. Use engineering principles to analyze the environmental components of an engineering system capably

Industrial Engineering Track (EN09)
1. Use common engineering software competently
2. Create mathematical models of physical systems
3. Work effectively on team projects
4. Create professional oral presentations
5. Write effective technical documents
6. Design experiments
7. Assess the validity of experimental results
8. Draw conclusions from experiments
9. Design mechanical systems
10. Fabricate mechanical prototypes
11. Analyze static mechanical systems
12. Analyze dynamic mechanical systems
13. Use linear algebra to solve engineering-related problems

Employment Potential
For related jobs: Career Coach
Occupational Resource: https://www.onetonline.org

Requirements for Program Entrance
For any Engineering Track: MCC Level 10 Mathematics Placement, Regents Physics exam score >= 70, Regents Chemistry exam score >= 70; Additionally, for Environmental, Chemical, and Biomedical Engineering Tracks: High School Biology grade >= 80
Recommended High School Courses: Solid Modeling (CAD), Digital Electronics, Computer Science

Distribution Requirements

Credit Hours
Engineering Science, A.S., Aeronautical/Mechanical Engineering Track (EN02)
FIRST SEMESTER: 18 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CHE 151 General College Chemistry I
4
ENR 161 Computing with Excel and C
3
ENR 153 Mechanical Design and Prototyping
4
Total
18
SECOND SEMESTER: 18 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
ENR 157 Digital Systems
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
18
THIRD SEMESTER: 14-15 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 251 Statics
3
ENR 253 Circuit Analysis I OR ENR 258 Thermodynamics
3-4
Total
14-15
FOURTH SEMESTER: 16 Credit Hours
MCC-HEALTH AND WELLNESS ELECTIVE (MCC-HW)
2
MTH 225 Differential Equations
4
ENR 252 Dynamics
3
ENG 105 Introduction to Literature
3
ENR 256 Mechanics of Materials
3
ENR 259 Engineering Design Laboratory
1
Total
16
TOTAL CREDITS
66-67
Engineering Science, A.S., Biomedical Engineering Track (EN06)
FIRST SEMESTER: 18 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CHE 151 General College Chemistry I
4
ENR 161 Computing with Excel and C
3
ENR 153 Mechanical Design and Prototyping OR ENR 157 Digital Systems
4
Total
18
SECOND SEMESTER: 18 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
CHE 152 General College Chemistry II
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
18
THIRD SEMESTER: 16-17 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 251 Statics OR
ENR 253 Circuit Analysis I
3-4
CHE 251 Organic Chemistry I
5
Total
16-17
FOURTH SEMESTER: 17 Credit Hours
MCC HEALTH and WELLNESS ELECTIVE (MCC-HW)
2
MTH 225 Differential Equations
4
BIO 155 General Biology I
4
ENR 259 Engineering Design Laboratory
1
ENG 105 Introduction to Literature
3
Total
14
TOTAL CREDITS
66-67
Engineering Science, A.S., Chemical Engineering Track (EN03)
FIRST SEMESTER: 16 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CHE 151 General College Chemistry I
4
ENR 161 Computing with Excel and C
3
MCC HEALTH AND WELLNESS ELECTIVE (MCC-HW)
2
Total
16
SECOND SEMESTER: 18 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
CHE 152 General College Chemistry II
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
18
THIRD SEMESTER: 16 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 251 Statics
3
CHE 251 Organic Chemistry I
5
Total
16
FOURTH SEMESTER: 16 Credit Hours
MTH 225 Differential Equations
4
CHE 252 Organic Chemistry II
5
ENR 256 Mechanics of Materials
3
ENR 259 Engineering Design Laboratory
1
ENG 105 Introduction to Literature
3
Total
16
TOTAL CREDITS
66
Engineering Science, A.S., Civil Engineering Track (EN07)
FIRST SEMESTER: 18 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CHE 151 General College Chemistry I
4
ENR 161 Computing with Excel and C
3
ENR 153 Mechanical Design and Prototyping
4
Total
18
SECOND SEMESTER: 18 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
CHE 152 General College Chemistry II
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
18
THIRD SEMESTER: 15 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 251 Statics
3
ENR 253 Circuit Analysis I
4
Total
15
FOURTH SEMESTER: 16 Credit Hours
MTH 225 Differential Equations
4
ENR 252 Dynamics
3
ENR 256 Mechanics of Materials
3
ENR 259 Engineering Design Laboratory
1
ENG 105 Introduction to Literature
3
MCC HEALTH AND WELLNESS ELECTIVE
2
Total
16
TOTAL CREDITS
67
Engineering Science, A.S., Computer Engineering Track (EN04)
FIRST SEMESTER: 18 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CSC 101 Introduction to Object-Oriented Programming
4
ENR 161 Computing with Excel and C
3
ENR 157 Digital Systems
4
Total
18
SECOND SEMESTER: 18 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
CSC 103 Introduction to Data Structures
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
18
THIRD SEMESTER: 15-16 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 253 Circuit Analysis I
4
CSC 202 Programming Embedded Microcontrollers in C and Assembly OR CSC 223 Computer Programming "C++"
3-4
Total
15-16
FOURTH SEMESTER: 17 Credit Hours
MTH 225 Differential Equations
4
ENR 254 Circuit Analysis II
3
CHE 151 General College Chemistry I
4
ENR 259 Engineering Design Laboratory
1
ENG 105 Introduction to Literature
3
MCC HEALTH AND WELLNESS ELECTIVE (MCC-HW)
2
Total
17
TOTAL CREDITS
68-69
Engineering Science, A.S., Electrical Engineering Track (EN05)
FIRST SEMESTER: 18 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CHE 151 General College Chemistry I
4
ENR 161 Computing with Excel and C
3
ENR 157 Digital Systems
4
Total
18
SECOND SEMESTER: 14 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
14
THIRD SEMESTER: 16 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 253 Circuit Analysis I
4
CSC 202 Programming Embedded Microcontrollers in C and Assembly
4
Total
16
FOURTH SEMESTER: 17 Credit Hours
MTH 225 Differential Equations
4
ENR 254 Circuit Analysis II
3
PHY 262 Modern Physics
4
ENR 259 Engineering Design Laboratory
1
ENG 105 Introduction to Literature
3
MCC HEALTH AND WELLNESS ELECTIVE (MCC-HW)
2
Total
17
TOTAL CREDITS
65
Engineering Science, A.S., Environmental Engineering Track (EN08)
FIRST SEMESTER: 18 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CHE 151 General College Chemistry I
4
ENR 161 Computing with Excel and C
3
ENR 153 Mechanical Design and Prototyping
4
Total
18
SECOND SEMESTER: 18 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
CHE 152 General College Chemistry II
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
18
THIRD SEMESTER: 16 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 251 Statics
3
CHE 251 Organic Chemistry I
5
Total
16
FOURTH SEMESTER: 16 Credit Hours
MTH 225 Differential Equations
4
BIO 155 General Biology I
4
ENG 105 Introduction to Literature
3
ENR 256 Mechanics of Materials
3
MCC HEALTH AND WELLNESS ELECTIVE (MCC-HW)
2
Total
16
TOTAL CREDITS
68
Engineering Science, A.S., Industrial Engineering Track (EN09)
FIRST SEMESTER: 18 Credit Hours
ENG 101 College Composition OR
ENG 200 Advanced Composition
3
MTH 210 Calculus I
4
CHE 151 General College Chemistry I
4
ENR 161 Computing with Excel and C
3
ENR 153 Mechanical Design and Prototyping
4
Total
18
SECOND SEMESTER: 18 Credit Hours
MTH 211 Calculus II
4
PHY 161 University Physics I
4
CHE 152 General College Chemistry II
4
ENR 261 Matlab Programming
3
SOC 101 Introduction to Sociology
3
Total
18
THIRD SEMESTER: 15 Credit Hours
MTH 212 Calculus III
4
PHY 261 University Physics II
4
ENR 251 Statics
3
ENR 253 Circuit Analysis I
4
Total
15
FOURTH SEMESTER: 17 Credit Hours
MTH 225 Differential Equations
4
ENR 252 Dynamics
3
ENR 256 Mechanics of Materials
3
ENR 259 Engineering Design Laboratory
1
ENG 105 Introduction to Literature
3
MCC HEALTH AND WELLNESS ELECTIVE (MCC-HW)
2
Total
16
TOTAL CREDITS
67
Updated 6/2/2021