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Engineering - A.A. Degree (Transfer)

Application Code 23

For curriculum information, contact the Science, Engineering, and Technology Division—Room ST-248—443-518-1600.

This program is designed for students preparing to transfer to a four-year institution to complete a bachelor’s degree in engineering. Engineers apply principles of physics and mathematics in the design, development, implementation, and maintenance of materials, structures and systems. Specific disciplines of engineering include aerospace, biological, electrical, chemical, civil, computer, environmental, industrial, manufacturing, materials and mechanical. In addition to acquiring a solid background in chemistry, mathematics, and physics, students enrolled in this program will acquire a strong foundation in engineering theory and will engage in project-based laboratory experiences. This program is designed to transfer to local university (i.e. UMCP and UMBC) engineering programs. Students interested in this curriculum, however, are advised to check the requirements of the institution to which they intend to transfer.

Suggested Semester 1

Course NumberTitleCredits
ENGL-121College Composition

3
ENES-100Introduction to Engineering Design

3
MATH-181Calculus I

4
PHYS-110General Physics I (Calculus)

4
-Social & Behavioral Sciences Core Group A

3

Suggested Semester 2

Course NumberTitleCredits
MATH-182Calculus II

4
PHYS-111General Physics II (Calculus)

4
-Arts & Humanities Core Group A

3
-Elective*

3-4

Suggested Semester 3

Course NumberTitleCredits
MATH-260Differential Equations

3
CHEM-135Chemistry for Engineers

3
-AND
CHEM-136Chemistry for Engineers Laboratory

1
-OR
CHEM-101General Inorganic Chemistry I

4
-Social & Behavioral Sciences Core Group B

3
-Electives*

6-8
Students who take CHEM-135 and CHEM-136 must choose a minimum of 22 credits from the elective courses listed below according to their specific transfer plans. The courses are grouped into specific interest areas, but students are free to select a minimum of 22 credits from any area.

Students who take CHEM-101 must also take CHEM-102 (in a subsequent semester), and must choose a minimum of 20 credits from the elective courses listed below according to their specific transfer plans. The courses are grouped into specific interest areas, but students are free to select a minimum of 20 credits from any area.

Suggested Semester 4

Course NumberTitleCredits
-Arts & Humanities Core Group B

3
-Electives*

11-12
Students who took CHEM-101 should take CHEM-102 in this semester in addition to the listed requirements.

*Electives - Select from the courses below:

Courses are grouped into specific interest areas, but students are free to select from any area.

Biological or Chemical Engineering

Course NumberTitleCredits
BIOL-120Biology for Engineers

3
BIOL-121Biology for Engineers Laboratory

1
BIOL-213Computational Biology

3
CHEM-201Organic Chemistry I

4
CHEM-202Organic Chemistry II

4
ENES-120Statics

3
ENES-130Dynamics

3
ENES-140Mechanics of Materials

3
ENES-271Introduction to Matlab

3
MATH-240Calculus III

4
PHYS-112General Physics III (Calculus)

3

Computer Engineering

Course NumberTitleCredits
CMSY-141Computer Science I

4
CMSY-171Computer Science II

4
-OR
ENES-171Intermediate Programming Concepts for Engineers

4
ENES-205Electric Circuits

4
ENES-222Elements of Discrete Signal Analysis

4
ENES-244Digital Logic Design

3
ENES-245Digital Circuits and Systems Laboratory

2
MATH-220Discrete Structures

3

Electrical Engineering

Course NumberTitleCredits
ENES-171Intermediate Programming Concepts for Engineers

4
ENES-205Electric Circuits

4
ENES-222Elements of Discrete Signal Analysis

4
ENES-244Digital Logic Design

3
ENES-245Digital Circuits and Systems Laboratory

2
MATH-240Calculus III

4
PHYS-112General Physics III (Calculus)

3

Mechanical, Civil, or Aerospace Engineering

Course NumberTitleCredits
ENES-120Statics

3
ENES-130Dynamics

3
ENES-140Mechanics of Materials

3
ENES-181Thermodynamics

3
ENES-271Introduction to Matlab

3
MATH-240Calculus III

4
PHYS-112General Physics III (Calculus)

3

A graduate should be able to

  1. 1. Apply knowledge of mathematics, science, and technology to identify and solve engineering problems, both individually and in groups.
  2. 2. Design and test a system, component, or process to meet specified needs within constraints.
  3. 3. Communicate effectively via oral, hand-written, and electronic modes, including technical presentations.
  4. 4. Utilize modern engineering techniques, skills, and tools, with an emphasis on the role that computers play in solving engineering problems.
  5. 5. Understand and apply the professional and ethical obligations of the engineering profession in a global, economic, environmental, and societal context.

Total Credit Hours: 63-65