Engineering Major
The Engineering Department offers an undergraduate major in Human-Centered Engineering (HCE) to students in the Morrissey College of Arts and Sciences. Students in this major will receive a Bachelor of Science (B.S.) in Engineering. The HCE program provides students with a technical education that is human-centered, design-process driven, and focused on applying engineering knowledge to solve complex global probems.
At a Glance
Curriculum
Required Courses听
- One course that fulfills the requirement in Introduction to Human-Centered Design:
- ENGR1801/HIST1672: Making the Modern World (Complex Problems course)
- ENGR1101: Introduction to Human-Centered Engineering听
- ENGR1102: Physical Modeling and Analysis Lab听
- ENGR1103: Engineering Analysis Lab
- ENGR1105: Engineering Computation and Programming
- ENGR2101, 2102, 2103, 2104, 2105: Engineering Foundations Studio I, II, III, IV, V
- ENGR3101: Human Factors in Engineering听
- ENGR3105: Statistical Data Analysis and Machine Learning
- Fourteen (14) credits of Technical Engineering Electives.听
- Collaborative engineering projects
- ENGR3801: Collaborative Service Engineering Project听
- ENGR4801-2: Senior Impact Project听
- 3 credits of Advanced Engineering Mathematics
- Eight semesters of HCE Reflection听
Corequisite Courses听
- PHYS2200: Introduction to Physics I for Physics Majors听
- CHEM1109 & CHEM1111: General Chemistry I with Lab
- MT100/MT101 or MT102/MT103: Calculus 1 and Calculus 2
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Corequisite Course Placement Guidance
Physics Placement
HCE majors should take PHYS2200 irrespective of their scores on the AP exam.
Calculus Placement听
HCE majors should take Calculus 1 and Calculus 2 during their first year. Students should work with their HCE advisors to identify the appropriate calculus sequence to take and, if exempted from one or both of these requirements, to determine an equivalent number of math/science credits to take for substitution.
All Courses
ENGR1101: Introduction to Human-Centered Engineering (spring) - 4 Credits
In this course, we will learn about and practice engineering methods to tackle design problems through a human-centered lens. These methods include introductory work with: mathematical models, statistics, physical prototyping, computer-aided design, decision-making approaches, and observation and interview techniques. We will learn how these methods can be employed while working on a design problem, including problem formulation, data analysis, design trade-offs, concept selection, and design deployment. At the end of this course, we will have a working understanding of how human-centered engineers think and work.
ENGR1102: Physical Modeling and Analysis Lab (fall) - 2 Credits
In this course, students will learn and apply concepts from physics and calculus to model, analyze, and experiment on physical systems through a combination of instructional and laboratory sessions. Example systems to be modeled and analyzed in the class will feature concepts including linear and rotational motion, and simple circuit elements. Students completing this course will be able to abstract a variety of physical systems into forms suitable for analysis and predict the behavior of these systems using analytical tools.
ENGR1103: Engineering Analysis Lab (spring) - 2 Credits
In this course, students will apply integral calculus and scientific principles to develop analytical solutions for engineering problems. Students will learn how to devise experiments, collect and analyze data, and conduct basic error analysis. The course will be structured as individual experimental modules to get hands-on experience with fundamental instruments including power supplies, sensors, electromechanical components, and computer-based data acquisition systems. Following this course, students will be equipped to apply quantitative analytical techniques to a variety of practical engineering problems.
ENGR1105: Engineering Computation and Programming (spring) - 3 Credits
In this course, students will be introduced to computational tools used in engineering through the MATLAB computing and programming environment. Students will also learn and apply fundamental concepts from linear algebra to solve engineering problems computationally. Topics to be introduced include loops, functions, arrays, matrices, and vectors. Students will be expected to complete weekly assignments and a final project in which students will use the MATLAB computing environment to solve an appropriately scoped computing/engineering problem.
ENGR1702: First-Year Human-Centered Engineering Reflection 1 (fall) - 0 Credits
Students will engage in weekly reflection sessions designed to integrate experiences in the HCE classroom with broader questions about the relationship between engineering, design, and society. Drawing on a variety of reflection practices, students will consider the role of engineering knowledge in complex sociotechnical systems, what it means to do human-centered engineering for the common good, the moral and ethical dimensions of engineering practice, and their own formation as students and individuals.
ENGR1703: First-year Human-Centered Engineering Reflection 2 (spring) - 0 Credits听
Students will continue to engage in weekly reflection sessions designed to integrate experiences in the HCE classroom with broader questions about the relationship between engineering, design, and society. Drawing on a variety of reflection practices, students will consider the role of engineering knowledge in complex sociotechnical systems, what it means to do human-centered engineering for the common good, the moral and ethical dimensions of engineering practice, and their own formation as students and individuals.
ENGR1801/HIST1672: Making the Modern World (periodically) - 6 Credits
*Fulfills the requirement for Introduction to Human-Centered Design
*Complex Problems course that fulfills Core requirements in History II, Natural Science, and Cultural Diversity听
Engineering systems present pressing technical, ethical, and moral problems that we must grapple with as global citizens. In this class students engage with the social, cultural, and institutional history of engineering; learn foundational skills in quantitative analysis of real-world engineering designs; and understand the political, environmental, economic, and ethical tradeoffs associated with building the modern world. Students collaborate on design projects based on human-centered engineering that culminate in an end-of-semester design conference.
ENGR2101: Engineering Foundations Studio I (fall) - 3 Credits听
This course is designed to help students begin to mechanically analyze the physical objects in the world around them. Students will learn how to look at systems and determine how to model the forces and reactions for statically determinate systems. This course will also cover math topics including integrals and their applications, vectors, vector functions, vector calculus (introductory level). Fundamental themes of materials science-- structure-property-processing relationships in materials, specifically metals, ceramics, and plastics will also be investigated.
ENGR2102: Engineering Foundations Studio II (fall) - 3 Credits
This course is designed to help students begin to mechanically analyze the physical objects in the world around them. Students will learn how to look at systems and determine how to model the forces and reactions for statically determinate systems. This course will also cover math topics including integrals and their applications, vectors, vector functions, vector calculus (introductory level). Fundamental themes of materials science-- structure-property-processing relationships in materials, specifically metals, ceramics, and plastics will also be investigated.
ENGR2103: Engineering Foundations Studio III (spring) - 4 Credits
In this course, students will be introduced to fluids, transport phenomena, and thermodynamics. Students will first learn about mass transport and conservation of mass and momentum before exploring the relationship between mass balance and fluids and transport. This knowledge will then feed into discussions of thermodynamics to elucidate how systems interact with their surroundings. Students will be expected to understand the concepts of mass balance, fluid flow, laws of thermodynamics, internal energy, work, enthalpy, entropy, and heat transfer.
ENGR2104: Engineering Foundations Studio IV (spring) - 4 Credits
In this course students will be introduced to the analysis of complex engineering systems in the real world. Students will learn several quantitative methods for modeling engineering systems including simple and complex networks and material flow analysis. Mathematical concepts of probability and statistics such as Poisson processes, return periods, and error propagation will be applied to various engineering domains. Students will also be introduced to engineering economics and life cycle assessment for situating engineering decisions within their economic, social, and environmental contexts.
ENGR2105: Engineering Foundations Studio V (spring) - 2 Credits
In this course students will conduct semester-long projects in human-centered engineering analysis. In small groups and with a faculty advisor, students will identify a topic of interest in the domains of health, energy, or the environment; conduct background research using literature sources; define a problem and an appropriate engineering methodology; execute their analysis; and prepare a report of their conclusions. Students will be expected to identify and apply mathematical, scientific, and engineering concepts relevant to their project. Students will gain experience with project management, teamwork, and professional communication.
ENGR2702: Second-Year Human Centered Engineering 1 (fall) - 0 Credits听
Students will participate in weekly reflections designed to integrate experiences in the HCE classroom with broader questions about the relationships among engineering, design, and society. In the second year, students will explore ideas of engineering identity, connections between engineering and philosophy and theology, and the needs of HCE as a new field of study.
ENGR2703: Second-Year Human Centered Engineering 2 (spring) - 0 Credits
Students will continue to participate in weekly reflections designed to integrate experiences in the HCE classroom with broader questions about the relationships among engineering, design, and society. In the second year, students will explore ideas of engineering identity, connections between engineering and philosophy and theology, and the needs of HCE as a new field of study.
- ENGR3105: Statistical Data Analysis and Machine Learning (fall) - 4 Credits
- ENGR3101: Human Factors in Engineering Design (spring) - 3 Credits
- ENGR3702: Third-Year Human-Centered Engineering Reflection 1 (fall) - 0 Credits
- ENGR3703: Third-Year Human-Centered Engineering Reflection 2 (spring) - 0 Credits
- ENGR3801: Collaborative Service Engineering Project (spring) - 3 Credits
- Concentration electives (fall/spring) - 3-4 Credits: Technical engineering electives related to health, energy, and/or the environment
- ENGR4801-2: Senior Impact Project (fall/spring) - 3 Credits/semester = total 6 Credits
- ENGR: Advanced Engineering Mathematics (spring) - 3 Credits
- ENGR4702: Fourth-Year Human-Centered Engineering Reflection 1 (fall) - 0 Credits
- ENGR4703: Fourth-Year Human-Centered Engineering Reflection 2 (spring) - 0 Credits
- Concentration electives (fall/spring) - 3-4 Credits: Technical engineering electives related to health, energy, and/or the environment
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ENGR4901: Undergraduate Research in Human-Centered Engineering (fall/spring) - 3 Credits
Undergraduate research in Human-Centered Engineering under the direction of a faculty member.
ENGR4911: Independent Study in Human-Centered Engineering- (fall/spring) - 3 Credits
Independent study in Human-Centered Engineering under the direction of a faculty member.
ENGR4912: Independent Study in Human-Centered Engineering- (fall/spring) - 2 Credits
Independent study in Human-Centered Engineering under the direction of a faculty member
ENGR4921: Topics in Human-Centered Engineering- (fall/spring) - 3 Credits
Topics for this course vary from semester to semester and are determined by the interests of faculty and students.
Careers
The Human-Centered Engineering program prepares students to be catalysts for good鈥攚hether it鈥檚 in the private or public sector, industry, or non-profit realm. Concentrations in Environment, Health, and Energy provide students with the academic background to succeed in a range of careers, including:
- Product design engineer in the healthcare sector
- Environmental policy consultant
- Engineer at an alternative energy startup
- Technical analyst at a social impact NGO
- Engineering systems specialist
- Program manager in the high-tech sector
On-Campus Opportunities & Support
Teaching Assistants, Lab Assistants, & Job Opportunities
The Engineering department periodically has openings for undergraduate teaching assistants and lab assistants.听To learn more about student job opportunities in the Department of Engineering contact Christine Brown.
Undergraduate Research Assistants
Engineering faculty are committed to working with undergraduates in their engineering labs and collaborating with students on faculty research projects. Students interested in doing research in an engineering lab should familiarize themselves with the Engineering faculty and their research interests. Students are welcome to reach out to the department administrator or specific faculty members to inquire about open positions. Engineering labs focus on a number of different areas of engineering, so research responsibilities will depend on the faculty member鈥檚 expertise and the specific projects at hand. Engineering faculty work with HCE majors and students who are majoring in other programs at 涩里番下载.
涩里番下载 Career Center
The听涩里番下载 Career Center听has extensive programs and resources to help you identify and prepare for a fulfilling career after graduation. Sign up for career coaching, browse internship and job listings, and connect with alumni in the engineering field. So far HCE students have found internships in academic engineering labs, environmental conservation organizations, and industry.听
FAQ
Incoming first-year students must be admitted as HCE majors in the Morrissey College of Arts and Sciences to be part of the undergraduate engineering major. If you are interested in the major, designate HCE in your Common App to 涩里番下载.
Incoming first-year students must be admitted as HCE majors in the Morrissey College of Arts and Sciences to be part of the undergraduate engineering major. 涩里番下载 students can enroll in HCE courses open to non-majors (e.g. ENGR1025: Innovation Through Design Thinking and Enduring Questions and/or Complex Problems courses with Engineering faculty) and reach out to HCE faculty regarding opportunities for research.
Incoming first-year students must be admitted as HCE majors in the Morrissey College of Arts and Sciences to be part of the undergraduate engineering major. Faculty welcome non-majors to enroll in engineering courses offered to all students. First-year students might be interested in taking Complex Problems or Enduring Questions courses on offer, such as ENGR1801/HIST1627 Making the Modern World: Design, Ethics, and Engineering. Students from any class might also think about taking ENGR1025: Innovation Through Design Thinking.
Engineering faculty members collaborate with undergraduate students in their research. Any 涩里番下载 student鈥擧CE majors and students majoring in other academic programs鈥攊s welcome to reach out to an engineering faculty member after familiarizing themselves with their research. Some student research positions are paid and others are available for academic credit.
涩里番下载 offers a Bachelor of Science degree in Human-Centered Engineering. The name 鈥淗uman-Centered Engineering鈥 (HCE) reflects 涩里番下载鈥檚 approach to engineering education which focuses on training engineers to tackle real-world problems through a curriculum that is inclusive, project-based, service-focused, and committed to the social good. Human-Centered Engineering integrates engineering education with 涩里番下载鈥檚 liberal arts Core Curriculum and its Jesuit, Catholic tradition of student formation. Our HCE majors are interested in the impact of engineering decisions on individual users and society, connecting social and cultural contexts to engineering design, and becoming informed, responsible engineers in today鈥檚 global society.
One of the most distinctive aspects of the Human-Centered Engineering program is its alignment with the 涩里番下载 Core. All HCE majors fulfill the Morrissey College of Arts and Sciences (MCAS) Core Curriculum as well as the MCAS Language Requirement. Each semester HCE majors take Core courses alongside their engineering classes. This is one of the most vital and sustained ways in which HCE students create connections between their technical training and complex issues related to engineering and society.
HCE majors take a mix of engineering courses, math/science co-requisite courses, Core course, and language courses during their four years at 涩里番下载. First-year HCE courses build foundations in engineering design, applications of math and physics to engineering analysis, and engineering computation and programming. Second-year students take a five-course Engineering Foundations Studio sequence that introduces students to common topics across engineering domains. Third-year and fourth-year students take advanced engineering courses, advanced engineering math, and choose up to four concentration courses related to Health, Energy, and/or the Environment. While all of our coursework involves project-based learning, the third-year Collaborative Service Project course and the fourth-year Capstone Engineering Project course offer intensive, real world, professional, engineering design experience for our majors. In a typical semester, HCE majors will take 2-3 engineering courses and 2-3 non-engineering courses (usually a mix of Core courses, language courses, or minor courses).
The Department of Engineering focused entirely on undergraduate engineering education, which means that there is ample opportunity for HCE majors to conduct engineering research from early on in their career at 涩里番下载. All of the engineering faculty mentor undergraduate students and collaborate with them on research projects. HCE majors interested in research opportunities should familiarize themselves with the expertise of the engineering faculty and reach out directly to inquire about term-time or summer positions.听
Community comes first in HCE, and students and faculty constantly collaborate inside and outside the classroom. In the words of the HCE Class of 2025 student Will Sweeney: 鈥淎ll of the faculty are extremely approachable and are absolutely on your side whenever it comes to figuring out classes, help with homework, looking for internships, or even navigating 涩里番下载 in general. The class sizes are small which makes it so easy to make friends within the major and I am always working with different groups of my fellow classmates, constantly fostering great relationships. There is absolutely no sense of cut throat competition within the department and everyone genuinely wants to help eachother grow. Whenever I think of the HCE department I don鈥檛 think of it as a major, I think of it as a community.鈥澨
Yes! We believe that engineers should be able to integrate their academic interests outside of engineering with the HCE major. HCE majors are minoring, double majoring, studying abroad, and integrating their engineering major with the Pre-Health Track at 涩里番下载. We recommend that students meet regularly with their HCE advisors to talk about these academic opportunities and to ensure that they can graduate on time fulfilling their HCE requirements, accreditation requirements, and those of their chosen academic programs outside of engineering.
Contact
Glenn Gaudette
Chair, Department of Engineering
glenn.gaudette@bc.edu 617-552-2049 245 Beacon Street, Room 511
Jenna Tonn
Director of Undergraduate Studies
jenna.tonn@bc.edu 617-552-6901 245 Beacon Street, Room 308B
Potential Employers: If you are interested in offering an internship or job to a 涩里番下载 Human-Centered Engineering student, contact the 涩里番下载 Career Center at 617-552-3430.