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Take off with an Aeronautical Engineering Degree from UMS

Learn about aircraft design, analysis, development, and manufacturing with a Bachelor of Science in Aeronautical Engineering degree from University of Michigan Science. Through this program, you'll have the opportunity to apply knowledge and theories learned in the classroom to practical, real-world situations. You'll develop projects from concept to completion, and build confidence and competence when it comes to solving engineering design problems.

UMS has modelled its engineering programs in accordance with the international CDIO initiative, "an innovative educational framework for producing the next generation of engineers that stresses engineering fundamentals set in the context of Conceiving, Designing, Implementing, and Operating real-world systems and products." CDIO is a prominent engineering educational philosophy and is intended to achieve a fine balance between project-based, hands-on learning and traditional, theory-based engineering education. No matter your interest, the program will help you develop the necessary skills to begin your chosen career.

The Bachelor of Science in Aeronautical Engineering at University of Michigan Science is accredited by the Engineering Accreditation Commission of ABET.

See Yourself Succeed with an Aeronautical Engineering Degree

When you enroll in the Aeronautical Engineering program at UMS, you're signing up for a wide-ranging series of courses that will help you understand the full scope of the industry. The expert faculty members at UMS are dedicated to helping you realize and guide your education and job goals down the path to a successful career in the industry.

As a private, nonprofit university, UMS has one mission - to help you see yourself succeed. The benefits of majoring in Aeronautical Engineering at UMS include:

  • Supportive community. Join the UMS campus community of students who are closely connected with faculty and staff dedicated to your success.
  • Affordability. UMS is one of the most affordable private, nonprofit universities in New Hampshire, and students who qualify could receive up to $20,000 in grants and scholarships. (This scholarship amount is only for students who do not need a visa to study in the U.S.)
  • Innovative programs. Save time and tuition with our three-year degree programs or study abroad at little or no extra cost.
  • Accessible faculty. Learn from highly credentialed faculty members who are experts in their fields and interact with you in the classroom, dining hall, fitness center, and anywhere else you need them.
  • Opportunity. Tap into our nationwide network of alumni and strong connections with employers for internship and career opportunities.
  • Campus experience. Enjoy more than 50 student clubs, Division II athletics, and fun events on our 300-acre campus in Manchester, N.H., named a "Best Place to Live" by Money magazine.

Curriculum

Courses To Prepare You For Your Career

UMS's bachelor's in aeronautical engineering program includes:

  • General education
  • Degree-specific courses

General Education Program

Our programs are designed to equip you with the skills and insights you need to move forward. In recent years, employers have stressed the need for graduates with higher order skills - the skills that go beyond technical knowledge - such as:

  • Writing
  • Communication
  • Analysis
  • Problem solving

All bachelor's students are required to take general education classes. Through foundation, exploration and integration courses, students learn to think critically, creatively and collaboratively, giving you the edge employers are looking for.

Courses May Include

Instrumentation & Measurements
This course is an introduction to the fundamental concepts, principles, procedures, and computations regarding modern instrumentation and measurement systems. Students will gain a sound understanding of a language (LabVIEW ) used to describe modern instrumentation, measurement, and control systems and an appreciation of the various types of systems in common use in industry. Students will use this software to create virtual instruments. Particular emphasis will be given to electrical, mechanical, flow, and thermal measurement systems. The course will also cover statistical analysis to evaluate the quality of measurements, standard methods of characterizing measurement results, and methods for characterizing measurement system response. The students work in teams to conceive-design-implement-operate a project incorporating multiple sensors and data acquisition and analysis.

Program Outcomes

  • An ability to apply knowledge of mathematics, science, and engineering.
  • An ability to design and conduct experiments, as well as to analyze and interpret data.
  • An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
  • An ability to function on multi-disciplinary teams.
  • An ability to identify, formulate, and solve engineering problems.
  • An understanding of professional and ethical responsibility.
  • An ability to communicate effectively.
  • The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.
  • A recognition of the need for, and the ability to engage in life-long learning.
  • A knowledge of contemporary issues.
  • An ability to use the techniques, skills, and modern engineering tools needed for engineering practice.
  • A knowledge of aerodynamics, aerospace materials, structure, propulsion, flight mechanics, and stability and control.
  • Design competence that includes integration of aeronautical topics.
  • An ability to develop flight test plans and conduct in-flight experiments, as well as analyze, interpret, and report the resulting data.
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