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Engineering BSE

Major: Engineering
Degree Awarded: Bachelor of Science in Engineering (BSE)
Calendar Type: Quarter
Minimum Required Credits: 181.5
Co-op Options: Three Co-op (Five years); One Co-op (Four years); No Co-op (Four years)
Classification of Instructional (CIP) code: 14.0101
Standard Occupational Classification (SOC) code: 17-2199

About the Program

For students in year two and beyond.

The Bachelor of Science in Engineering major is an interdisciplinary engineering major for students who do not intend to be practicing engineers. Students in the Bachelor of Science in Engineering major combine a rigorous engineering education in the College of Engineering with interdisciplinary studies in fields outside of engineering such as law, medicine, business, entrepreneurship, teaching, international studies, public policy, music, art, environmental studies, and more. The Bachelor of Science in Engineering major provides a strong grounding in the foundations of engineering, in quantitative skills, and in the analytic processes that engineers use in design of practical technology.

Drexel's Bachelor of Science in Engineering major was developed to provide students with educational and professional challenges not available in the traditional engineering curriculum.

Program Objectives

The key objectives of the Bachelor of Science in Engineering program are to provide the student with:

A strong foundation in science and mathematics
A foundation of the fundamentals of engineering as a discipline
A strong grounding in a second cognate area (either technical, pre-professional, cultural, global, or another area worked out between the student and their advisor)
An integrating experience that ties the technical and the cognate areas together. Examples of such experiences may be, but are not limited to, research projects, capstone designs, a public service assignment, etc.

Additional Information

Students should contact their advisor. More information about engineering programs is available on the College of Engineering academics website.

Degree Requirements

General Education/Liberal Studies Requirements
CIVC 101	Introduction to Civic Engagement	1.0
COOP 101	Career Management and Professional Development	1.0
ENGL 101	Composition and Rhetoric I: Inquiry and Exploratory Research	3.0
or ENGL 111	English Composition I
ENGL 102	Composition and Rhetoric II: Advanced Research and Evidence-Based Writing	3.0
or ENGL 112	English Composition II
ENGL 103	Composition and Rhetoric III: Themes and Genres	3.0
or ENGL 113	English Composition III
UNIV E101	The Drexel Experience	1.0
General Education Requirements ^*		24.0
Free Electives		24.0
Math and Science Requirements
BIO 141	Essential Biology	4.5
CHEM 101	General Chemistry I	3.5
CHEM 102	General Chemistry II	4.5
MATH 121	Calculus I	4.0
MATH 122	Calculus II	4.0
MATH 200	Multivariate Calculus	4.0
PHYS 101	Fundamentals of Physics I	4.0
PHYS 102	Fundamentals of Physics II	4.0
PHYS 201	Fundamentals of Physics III	4.0
Core Curriculum Requirements
ENGR 111	Introduction to Engineering Design & Data Analysis	3.0
ENGR 113	First-Year Engineering Design	3.0
ENGR 131	Introductory Programming for Engineers	3.0
or ENGR 132	Programming for Engineers
ENGR 231	Linear Engineering Systems	3.0
ENGR 232	Dynamic Engineering Systems	3.0
Engineering Requirements
Senior Design Sequence or Research Project		8.0
200+ Level Courses ^**		22.0
300+ Level Courses ^**		22.0
Technical Electives
200+ Level Courses ^***		18.0
Total Credits		181.5

*: General Education Requirements.
**: Students may choose between AE, BMES, CHE, CAE, CS, ECE, ENGR, ENVE, MATE or MEM.
***: Students may choose between BMES, CS, MATH, CHEM, PHYS, BIO or approved College of Engineering courses. Advisor approval is required for technical electives.

Sample Plan of Study

4 year, no co-op

First Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
CHEM 101	3.5	CIVC 101	1.0	BIO 141	4.5	VACATION
ENGL 101 or 111	3.0	CHEM 102	4.5	ENGL 102 or 112	3.0
ENGR 111	3.0	ENGR 131 or 132	3.0	ENGR 113	3.0
MATH 121	4.0	MATH 122	4.0	MATH 200	4.0
UNIV E101	1.0	PHYS 101	4.0	PHYS 102	4.0
	14.5		16.5		18.5		0
Second Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
ENGL 103 or 113	3.0	ENGR 232	3.0	Two Engineering courses^**	6.0	VACATION
ENGR 231	3.0	Two Engineering courses^**	7.0	General Education elective^**	3.0
PHYS 201	4.0	General Education elective^**	3.0	Free elective	3.0
Two Engineering courses^**	7.0	Free elective^*	4.0
	17		17		12		0
Third Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
Two Engineering courses^**	6.0	Two Engineering courses^**	6.0	Two Engineering courses^**	6.0	VACATION
Technical elective	3.0	Technical elective	3.0	Technical elective	3.0
General Education elective^**	3.0	General Education elective^**	3.0	General Education elective^**	3.0
Free elective	3.0	Free elective	3.0	Free elective	3.0
	15		15		15		0
Fourth Year
Fall	Credits	Winter	Credits	Spring	Credits
Senior Design Project I or Capstone course^**	2.0	Senior Design Project II or Capstone course^**	2.0	Senior Design Project III or Capstone course^**	4.0
Engineering course^**	3.0	Engineering course^**	3.0	Technical elective	3.0
Technical elective	3.0	Technical elective	3.0	General Education elective^**	3.0
General Education elective^**	3.0	General Education elective^**	3.0	Free elective	3.0
Free elective	3.0	Free elective	3.0
	14		14		13
Total Credits 181.5

*: Students not participating in co-op will not take COOP 101; 1 credit of Free Elective will be added in place of COOP 101.
**: See degree requirements.

4 year, 1 co-op

First Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
CHEM 101	3.5	CIVC 101	1.0	BIO 141	4.5	VACATION
ENGL 101 or 111	3.0	CHEM 102	4.5	COOP 101^*	1.0
ENGR 111	3.0	ENGR 131 or 132	3.0	ENGL 102 or 112	3.0
MATH 121	4.0	MATH 122	4.0	ENGR 113	3.0
UNIV E101	1.0	PHYS 101	4.0	MATH 200	4.0
				PHYS 102	4.0
	14.5		16.5		19.5		0
Second Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
ENGL 103 or 113	3.0	ENGR 232	3.0	Two Engineering courses^**	6.0	Two Engineering courses^**	6.0
ENGR 231	3.0	Two Engineering courses^**	7.0	General Education elective^**	3.0	Technical elective	3.0
PHYS 201	4.0	General Education elective^**	3.0	Free elective	3.0	General Education elective^**	3.0
Two Engineering courses^**	7.0	Free elective	3.0			Free elective	3.0
	17		16		12		15
Third Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
Two Engineering courses^**	6.0	Two Engineering courses^**	6.0	COOP EXPERIENCE		COOP EXPERIENCE
Technical elective	3.0	Technical elective	3.0
General Education elective^**	3.0	General Education elective^**	3.0
Free elective	3.0	Free elective	3.0
	15		15		0		0
Fourth Year
Fall	Credits	Winter	Credits	Spring	Credits
Senior Design Project I or Capstone course^**	2.0	Senior Design Project II or Capstone course^**	2.0	Senior Design Project III or Capstone course^**	4.0
Engineering course^**	3.0	Engineering course^**	3.0	Technical elective	3.0
Technical elective	3.0	Technical elective	3.0	General Education elective^**	3.0
General Education elective^**	3.0	General Education elective^**	3.0	Free elective	3.0
Free elective	3.0	Free elective	3.0
	14		14		13
Total Credits 181.5

*

Co-op cycles may vary. Students are assigned a co-op cycle (fall/winter, spring/summer, summer-only) based on their co-op program (4-year, 5-year) and major.

COOP 101 registration is determined by the co-op cycle assigned and may be scheduled in a different term. Select students may be eligible to take COOP 001 in place ofCOOP 101

See degree requirements.

5 year, 3 co-op

First Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
CHEM 101	3.5	CIVC 101	1.0	BIO 141	4.5	VACATION
ENGL 101 or 111	3.0	CHEM 102	4.5	COOP 101^*	1.0
ENGR 111	3.0	ENGR 131 or 132	3.0	ENGL 102 or 112	3.0
MATH 121	4.0	MATH 122	4.0	ENGR 113	3.0
UNIV E101	1.0	PHYS 101	4.0	MATH 200	4.0
				PHYS 102	4.0
	14.5		16.5		19.5		0
Second Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
ENGL 103 or 113	3.0	ENGR 232	3.0	COOP EXPERIENCE		COOP EXPERIENCE
ENGR 231	3.0	Two Engineering courses^**	7.0
PHYS 201	4.0	General Education elective^**	3.0
Two Engineering courses^**	7.0	Free elective	3.0
	17		16		0		0
Third Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
Two Engineering courses^**	6.0	Two Engineering courses^**	6.0	COOP EXPERIENCE		COOP EXPERIENCE
General Education elective^**	3.0	Technical elective	3.0
Free elective	3.0	General Education elective^**	3.0
		Free elective	3.0
	12		15		0		0
Fourth Year
Fall	Credits	Winter	Credits	Spring	Credits	Summer	Credits
Two Engineering courses^**	6.0	Two Engineering courses^**	6.0	COOP EXPERIENCE		COOP EXPERIENCE
Technical elective	3.0	Technical elective	3.0
General Education elective^**	3.0	General Education elective^**	3.0
Free elective	3.0	Free elective	3.0
	15		15		0		0
Fifth Year
Fall	Credits	Winter	Credits	Spring	Credits
Senior Design Project I or Capstone course^**	2.0	Senior Design Project II or Capstone course^**	2.0	Senior Design Project III or Capstone course^**	4.0
Engineering course^**	3.0	Engineering course^**	3.0	Technical elective	3.0
Technical elective	3.0	Technical elective	3.0	General Education elective^**	3.0
General Education elective^**	3.0	General Education elective^**	3.0	Free elective	3.0
Free elective	3.0	Free elective	3.0
	14		14		13
Total Credits 181.5

*

Co-op cycles may vary. Students are assigned a co-op cycle (fall/winter, spring/summer, summer-only) based on their co-op program (4-year, 5-year) and major.

COOP 101 registration is determined by the co-op cycle assigned and may be scheduled in a different term. Select students may be eligible to take COOP 001 in place ofCOOP 101

See degree requirements.

Facilities

From the start of their freshman year, students learn to use the equipment they are likely to need in their careers such as oscilloscopes, signal generators, amplifiers, and power supplies. These skills make students more useful as co-op employees and give them a competitive advantage in their engineering careers.

Computer/Design Center

The Drexel curriculum boasts two types of lab experience: Instrumentation and Computer Design. Instrumentation Labs introduce Engineering majors to the sight, sound, and feel of equipment such as digital multimeters, power supplies, oscilloscopes, and waveform generators. The Computer Labs imbue these pre-engineers with knowledge of software which will be vital in today's work environment.

Program Level Outcomes

Upon completion of the program, graduates will be prepared to:

Identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
Apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
Communicate effectively with a range of audiences
Recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
Function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
Develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
Acquire and apply new knowledge as needed, using appropriate learning strategies

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