Masters in Transportation Engineering in North America

Find Masters Programs in Transportation Engineering in North America 2017

Transportation Engineering

A Masters degree is an academic degree awarded to individuals who successfully denote a higher level of expertise. There are two main types of Masters - taught and research.

A Master of Science in Transportation Engineering will grant graduates the knowledge to plan effective transportation systems. It presents interesting challenges, both in advanced and developing countries.

The United States of America is located on the continent of North America. It is the third largest country by size in the world. It has a relatively short history compared to other world nations, has one of the world's largest economies, and has one of the world's most diverse populations.

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Master of Engineering (Automotive)

University of Windsor
Campus Full time 16 months September 2017 Canada Windsor

The course based Master of Engineering - Mechanical Engineering (Automotive Option) will prepare graduates for leadership positions within the automotive and manufacturing industries. [+]

Masters in Transportation Engineering in North America 2017. Program Overview The course based Master of Engineering - Mechanical Engineering (Automotive Option) will prepare graduates for leadership positions within the automotive and manufacturing industries. You will study and live in Canada for approximately 16 consecutive months and take a variety of topics through eight prescribed courses. These courses are selected by academic administration and will vary from year to year. The goal of the program is to provide you with the opportunity to extend your understanding of automotive engineering principles, with an emphasis on operation, design, materials and manufacturing along with some aspects of business and management. At the University of Windsor, you will be interacting with world-class faculty conducting cutting-edge research in the automotive area. They will be your mentors as you prepare yourself for the careers of the future. You will combine what you learn in the classroom with practical application so that you are ready for the world of opportunities that will follow your university studies. Co-Op The MEng-Mechanical Engineering (Automotive Option) has an optional co-op portion. Co-op is an opportunity for students to work in a automotive related company during one semester of school. All students will apply for co-op, however it is a competitive program and we may not have a placement opportunity for all students. Course offerings The MEng-Mechanical Engineering (Automotive Option) consists of eight courses taught over four academic terms starting in September and January. Courses may include: Advanced Internal Combustion Engines Hybrid Powertrains... [-]

Master of Engineering in Additive Manufacturing

University of Maryland, A. James Clark School of Engineering
Campus Full time September 2017 USA College Park

The 30-credit curriculum includes 10 three-credit courses. No research or thesis is required for the degree. Six core courses and four elective courses. [+]

Additive Manufacturing is a new class of manufacturing processes with associated design principles that are being used extensively by engineers for prototyping concepts and to realize new products. It is the official industry standard term (ASTM F2792) for all applications of the technology. It is defined as the process of joining materials to make objects from 3D model data, usually layer upon layer, as opposed to subtractive manufacturing methodologies. The curriculum has more manufacturing, materials, and design content than a standard degree in Mechanical Engineering, which is the most closely related degree program. A number of new specialized courses are being developed to support the degree. Examples of topics covered include: * Fundamentals of Additive Manufacturing Processes * Product Realization using Additive Manufacturing * Design and Optimization for Additive Manufacturing * Polymer processing for Additive Manufacturing Learning outcomes include: * understanding of material properties that govern use in AM processes * understanding of manufacturing principles for AM * understanding of design principles for AM * ability to employ AM for prototyping and product realization * ability to model AM processes * ability to perform statistical analysis of AM processes Office of Advanced Engineering Education 2105 J.M. Patterson Building University of Maryland College Park, MD 20742 [-]