Program Overview

If you want to develop the required business, financial, process and production knowledge for a leadership role in the engineering management field, our Master of Science in Engineering Management (MSEM) degree program is for you! This highly distinct program trains and educates recent graduates and working professionals seeking career advancement in engineering and related design fields.

Our MSEM degree program is different from an MBA. It provides a unique integration of technical and managerial courses to create a curriculum designed to bridge the gap between multi-disciplinary fields of engineering and business management.

The program provides the necessary business intelligence to improve processes and the specific knowledge and skills essential for higher-level supervisory and management positions.

Students will benefit from the active learning environment that ÎÚÑ»´«Ã½ has been honing for more than 75 years and cross-disciplinary team projects, and active case study analysis. Students develop core competencies in engineering management projects and processes, product production, and engineering services.

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Full Description

The full-time MSEM at the New England Institute of Technology is ideal for engineering professionals who desire to advance their technical and managerial knowledge in the engineering domain.

The program emphasizes the relevance of continuous learning to personal and professional growth through the combination of advanced traditional engineering courses and an integrated management core.

The MSEM program equips current or aspiring engineering managers with the necessary tools to make thoughtful decisions that affect an organization’s management needs. The program’s mission covers central themes that drive modern engineering business operations:

  • Best practices of leaders and management professionals in the engineering sector
  • Engineering project accounting and finance
  • Engineering law
  • Software applications that support the profession

Successful graduates may advance their careers by qualifying for positions such as project managers, project executives, directors of engineering operations, and comparable leadership roles in the engineering field.

Potential Career Opportunities

Engineering managers possess the practical experience as engineers that enables them to apply technical expertise to a project. It’s equally critical for such engineers to organize and direct projects and manage various personnel, such as scientists, other engineers, and support staff.

Engineering managers plan, coordinate, and supervise research, development, and production in various engineering fields. The job duties may include:

  • overseeing the design of machinery, equipment, products, or systems
  • directing production, quality assurance, or maintenance
  • designing and assessing the feasibility of new products or processes
  • coordinating with other units, such as management, financial or marketing
  • taking up management and leadership roles in the engineering field

Typical job titles that students can get include:


Electrical Engineering Director

Engineering Design Manager

Engineering Manager

Engineering Research Manager

Global Engineering Manager

Mechanical Engineering Director

Process Engineering Manager

Product Development Manager

FAQ

Related Programs

Program Mission, Goals, and Outcomes

Program Mission

The MSEM program equips current and aspiring engineering managers with the necessary tools to make thoughtful decisions that affect an organization’s management needs.

The program aims to bridge the gap between engineering and business management while providing engineers with the necessary business intelligence to improve processes.

The program’s mission builds around central themes that drive modern engineering industry operations:

  • Best practices of leaders and administration professionals in the engineering domain
  • Engineering product accounting and finance
  • Engineering law
  • Software applications that support the engineering administration profession

Program Outcomes

As a graduate of this full-time program, students will qualify to apply the following key skills:

  1. Lead complex engineering and capital-intensive organizations with globally dispersed organizational structures.
  2. Solve industry-related problems by applying management skills and knowledge of business, mathematics, science, financial management, information systems, and engineering.
  3. Understand the implications of emerging technologies on the business, organization, and society.
  4. Interpret quantitative and subjective data to make sound engineering and managerial decisions.
  5. Apply systems engineering to solve complex technical and operational problems to meet both business and customer needs.
  6. Display leadership skills to drive effective teams and develop quality projects.
  7. Communicate effectively across the entire enterprise, both vertically and horizontally, to all members of the organization.
  8. Understand the ethical responsibilities of practicing engineering managers and the impact of decisions with a global, societal and environmental context.
  9. Appreciate the need for life-long learning and personal development as a professional and individual.

ÎÚÑ»´«Ã½ Course Catalog

 

ÎÚÑ»´«Ã½ is proud to offer a modern, practical, immersive curriculum for our unique degree programs. Our career-focused education brings learning to life.

 

The hands-on curriculum puts you in the action from day one—whether you’re in a simulated surgical suite, construction site, or design lab. With intimate class sizes and access to the latest industry-driven technology, you’ll gain real-world skills in an inspiring and supportive environment where students and faculty work together to ensure your success. Explore our full range of immersive courses in the catalog below and see how ÎÚÑ»´«Ã½ can shape your future!

 

The core courses delivered include systems engineering, advanced project management, human-centered design thinking, managerial finance, emerging technology, ethical decision-making, and more.

 

Q&A and Technical Standards

Questions & Answers

  1. When do my classes meet?
    This evening program has two courses per term. Each course meets once a week from 6:30-10 p.m.At the beginning of each term you will receive a detailed schedule giving the exact time and location of all your classes. The College requires that all students be prepared to take classes and receive services at any of ÎÚÑ»´«Ã½â€™s locations where the appropriate classes and services are offered.Classes cancelled by the university for any reason will be rescheduled.
  2. How large will my classes be?
    The average size for a class is about 15 to 20 students; however, larger and smaller classes occur from time to time.
  3. Where do my classes meet?
    Classes meet on the East Greenwich campus. Some courses may be offered online.
  4. How long should it take me to complete my program?
    To complete your degree requirements in the shortest possible time, you should take the courses outlined in the prescribed curriculum.  For a typical six-term curriculum a student may complete the requirements in as little as 18 months.
  5. Is ÎÚÑ»´«Ã½ accredited?
    ÎÚÑ»´«Ã½ is accredited by the New England Commission of Higher Education. Accreditation by NECHE is recognized by the federal government and entitles ÎÚÑ»´«Ã½ to participate in federal financial aid programs. Some academic departments have specialized professional accreditations in addition to accreditation by NECHE. For more information on accreditation, see ÎÚÑ»´«Ã½â€™s catalog.
  6. Can I transfer the credits that I earn at ÎÚÑ»´«Ã½ to another college?
    The transferability of a course is always up to the institution to which the student is transferring. Students interested in the transferability of their credits should contact the Office of Teaching and Learning for further information.
  7. Can I transfer credits earned at another college to ÎÚÑ»´«Ã½?
    Transfer credit for appropriate courses taken at accredited institutions will be considered for courses in which the student has earned a “B” or above. An official transcript from the other institution must be received before the end of the first week of the term for transfer credit to be granted for courses to be taken during that term. Students will receive a tuition reduction for the approved courses based on the program rate and will be applied against the final academic term of the curriculum’s tuition amount. No tuition credit is provided for technical courses which are not a part of the curriculum.Students may transfer no more than 4 credits (one course).
  8. How many credits do I need to acquire my Financial Aid?
    Students entering the MSEM program will be eligible for various forms of financial aid, including loans, if they take at least 4 credits per term.
  9. What does my program cost?
    The cost of your program will be as outlined in your enrollment agreement, along with your cost for books and other course materials.
  10. What kind of employment assistance does ÎÚÑ»´«Ã½ offer?
    The Career Services Office assists ÎÚÑ»´«Ã½ students and graduates in all aspects of the job search, including resume writing, interviewing skills, and developing of a job search strategy. Upon completion of their program, graduates may submit a resume to the Career Services Office to be circulated to employers for employment opportunities in their fields.  Employers regularly contact us about our graduates.  In addition, our Career Services Office contacts employers to develop job leads. A strong relationship with employers exists as a result of our training students to meet the needs of industry for over fifty years. No school can, and ÎÚÑ»´«Ã½ does not, guarantee to its graduates’ employment or a specific starting salary.
  11. Where will job opportunities exist?Engineering Management is a career that brings together the technological problem-solving savvy of engineering and the organizational, administrative, and planning abilities of management in order to oversee complex enterprises from conception to completion. Engineering managers possess the practical experience as engineers that enables them to apply technical expertise to a project, but it’s equally critical that they have the skills to organize and direct projects, as well as manage a variety of personnel, such as scientists, other engineers and support staff.Engineering managers plan, coordinate, and supervise research, development, and production in a variety of engineering fields. Engineering management job duties may include:
    • overseeing the design of machinery, equipment, products or systems
    • directing production, quality assurance or maintenance
    • designing and assessing the feasibility of new products or processes
    • coordinating with other units, such as management, financial or marketing

    Engineering managers are in demand nationwide.

  12. Do I need an engineering degree to enter the program?
    Yes. A B.S. degree in engineering, engineering technology or a related field from an accredited institution is required for before beginning this degree program. You may enroll in this program pending the completion of your current BS degree. Significant professional experience may be considered in lieu of an appropriate degree. A transcript and/or a resume should be supplied to satisfy either of these requirements.
  13. Do I need a certain grade point average to enter the program?
    Yes, you will need a 2.5 grade point average to enter the program.
  14. Are there any other special entrance requirements?
    Yes. You will need to write a personal statement as part of your admission process that details your interest in the program and how it will enable you to accomplish your professional goals.
  15. Do I need to maintain a certain grade point average?
    Yes. You are required to maintain a cumulative grade point average of at least 3.0 throughout the program. The minimum passing grade for a course in the MSEM program is a C (73%).
  16. What happens if I earn less than a C in a course?Students who earn less than a C in any course will be required to re-take the course the next time it is offered. If the student does not earn a C or better in a course after the second attempt, he/she will be dismissed from the MSEM program. Students will only be allowed to re-take two courses.
  17. What are the hardware and software requirements for the program?

    Recommended Minimum
    Operating System: Windows 10 or Macintosh OS X (10.14)
    Processor: 2+ GHz
    Memory: 4GB
    Plug-ins: Adobe PDF Reader, Flash Adobe PDF Reader, Flash and others as required by specific courses
    Players: QuickTime, Java Player, Java
    Browser: Chrome, IE, Safari, Edge, Firefox (all latest versions)
    Display: 1024×768
    Software: Office 365 (2016)
    Internet Connection: FiOS/DSL/CABLE DSL/CABLE
    Email Account: New England Tech student email account
    Sound Card: Required
    Other (some programs): • A webcam (the one built into your laptop or iPad should be fine)

    • A microphone (built into the computer or headset is handy).

    • A digital camera (the one on a smart phone is fine).

    Online students must be capable of installing and maintaining their own computer’s hardware and software. New England Tech does not assist students with the setup of their computers.

    Information about obtaining the software (if any) will be made available to you at the start of each course.

    Note: Tablets and smartphones can be convenient for reading course materials and email but will not be sufficient for doing all of your course work.

Technical Standards

These technical standards set forth by the engineering department establish the essential qualifications considered necessary for students admitted to the program.  The successful student must possess the following skills and abilities or be able to demonstrate they can complete the requirements of the program with or without reasonable accommodation, using some other combination of skills and abilities.

Cognitive Ability

  • Good reasoning and critical thinking skills.
  • Problem solving skills and techniques.
  • Ability to learn, remember and recall detailed information and to use it for problem solving.
  • Ability to deal with materials and problems such as organizing or reorganizing information.
  • Ability to use abstractions in specific concrete situations.
  • Ability to separate complex information into its component parts.
  • Ability to perform tasks by observing demonstrations.
  • Ability to perform tasks by following written instructions.
  • Ability to perform tasks following verbal instructions.
  • Possession of basic keyboarding skills and knowledge of computer programs.

Communications Skills

  • Ability to speak in understandable English in a classroom situation on a one-on-one basis as well as before a group.
  • Ability to communicate effectively with faculty and other students.
  • Ability to demonstrate and use the knowledge acquired during the classroom training process.
  • Ability to verbally express technical concepts clearly and distinctly.
  • Ability to express thoughts clearly.

Adaptive Ability

  • Ability to remain calm in the face of computer lab equipment and/or software failure.
  • Ability to maintain emotional stability and the maturity necessary to interact with members of the faculty and students in a responsible manner.
  • Ability to tolerate the differences in all students, faculty, and administration.
  • Ability to follow instructions and complete tasks under stressful and demanding conditions.
  • Ability to adapt in a positive manner to new and changing situations with an open mind and flexibility.
  • Ability to think clearly and act quickly and appropriately in stressful situations.

Physical Ability

  • Ability to sit continuously at a personal computer for long periods of time in order to learn and complete projects and/or assignments.
  • Ability to perform learned skills independently, with accuracy and completeness within reasonable time frames in accordance with classroom and business procedures.

Manual Ability

  • Sufficient motor function and sensory abilities to participate effectively in the classroom laboratory.
  • Sufficient manual dexterity and motor coordination to coordinate hands, eyes and fingers in the operation of computers, business equipment and other required classroom or laboratory tools and equipment.

Sensory Ability

  • Visual
    • Acute enough to see clearly and interpret the contents on a computer screen or other classroom tools.