Best 118 Masters of Science (MScs) in Mechanical Engineering 2019
The MSc, or Master of Science, is an internationally recognized academic degree that indicates proficiency and knowledge of a given topic or field. Most MSc programs take about four years to finish, after which some join the workforce while others continue on in the classroom.
Mechanical engineering is a diverse engineering discipline, as it is the knowledge that is necessary to take a product from idea to the marketplace. The skills necessary to accomplish this include the ability to design for functionality, aesthetics and the environment the product will be used in.
This Master of Science Program in Marine and Offshore Technology is designed to meet the growing demand for skilled professionals in the marine and offshore industry.
Oceans cover more than 70% of the earth’s surface. However, those are still much unexplored. About 97% of the earth’s water is contained in oceans and seas all connected forming an enormous mass of water. Complex marine engineering becomes crucial when obtaining and discovering all the resources that the oceans can bring as for solving the different issues that can occur during this process.
This Master of Science Program in Marine and Offshore Technology is designed to meet the growing demand for skilled professionals in the marine and offshore industry.
This MSc program has a strong international profile with students from all over the world.
Marine and Offshore Technology graduates will be equipped with the best theoretical and practical tools since we have some of the strongest academic staff in the world within this field....
Purdue Polytechnic Institute – Center for Professional Studies
If you’re looking to advance within the challenging, specialized world of aviation, Purdue’s MS in Aviation and Aerospace Management will help you develop essential manag
If you’re looking to advance within the challenging, specialized world of aviation, Purdue’s MS in Aviation and Aerospace Management will help you develop essential management and leadership skills.
Taught by professors with distinguished educational backgrounds and work experience in civilian aviation, military aviation and governmental roles, our industry-specific courses will prepare you for numerous aviation management roles.
Economic forecasts suggest that a steady increase in travelling passenger and air cargo requirements will fuel a dramatic expansion of the aviation industry, and require a complete restructuring of the existing air transportation system architecture. This industry growth is generating a wide range of leadership opportunities in the aviation industry for individuals who possess aviation and aerospace management skills such as operational analysis, safety systems development, project management, systems integration, environmental sustainability, and related interdisciplinary skills....
The education is aimed at training engineers capable of elaborating the concept of machines, mechanical equipment and processes, modelling them, then planning, operating
Master of Science Programs in Mechanical Engineering. Master’s degree title: Mechanical Engineering.
Level of the degree to be obtained: Master’s (MSc.)
Specification of the degree to be obtained: Mechanical Engineer (in Hungarian: “okleveles gépészmérnök”)
Field of training: Technical.
Course duration: Four semesters.
Specialization: Lifetime Economics/Management.
Upon entering this MSc course, the courses/degrees accepted as preceding studies are the following:
With full credit, the value can be taken into account: the BSc course in Mechanical Engineering.
BSc courses primarily accepted with the value specified in ad. 11: Material Engineering, Energetic Engineering, Industrial Product Planning and Design Engineering, Agricultural and Food Industry Mechanical Engineering, Traffic Engineering and Mechatronic Engineering.
Furthermore: With credit values according to ad. 11, such Bachelor and Master degree courses, which will be accepted by the Credit Transfer Committee of the higher education institution in question (based on adding the attainment that serve as a basis of determining the credit can also be taken into account) in accordance with the Act LXXX on Higher Education (1993) regarding College and University level BSc courses.
NYIT’s innovative Mechanical Engineering, M.S. program combines fundamental concepts with modern applications. We offer cutting-edge research opportunities and up-to-date
Mechanical Engineering, M.S.
NYIT’s innovative Mechanical Engineering, M.S. program combines fundamental concepts with modern applications. We offer cutting-edge research opportunities and up-to-date coursework in:
Heat transfer and thermo-fluid systems
Biomechanics and biomedical devices
Controls and dynamical systems
Our labs and facilities, including our Entrepreneurship and Technology Innovation Center and Fabrication Rapid Prototyping Lab, provide state-of-the-art space for research in bioengineering, assistive technologies, energy, and other related areas. Our 30-credit curriculum offers both thesis and project-based non-thesis options. Both provide the chance to present work at major conferences and publish your findings alongside our faculty experts in peer-reviewed journals....
The George Washington University - School of Engineering & Applied Science
Offered through the Department of Mechanical and Aerospace Engineering, the M.S. program in Mechanical and Aerospace Engineering prepares students for leadership careers
Offered through the Department of Mechanical and Aerospace Engineering, the M.S. program in Mechanical and Aerospace Engineering prepares students for leadership careers in government and industry. Students and faculty work together to explore solutions in areas such as mobile robots for search and rescue missions; defense and environmental monitoring; smart materials; and plasma-based methods for reinforcing industrial plastics in transportation vehicles.
Students choose from the following areas of focus:
Design of mechanical engineering systems
Fluid mechanics, thermal sciences, and energy
Solid mechanics and materials science
Structures and dynamics
Robotics, mechatronics, and controls
Master of Science in Mechanical and Aerospace Engineering (M.S.)
Rapid developments in vehicle engineering have led to a merging of the fields of Mechanics, Electronics and Informatics. One cause of this is that vehicles meet customer
Master in Automotive Mechatronics and Management
Rapid developments in vehicle engineering have led to a merging of the fields of Mechanics, Electronics and Informatics. One cause of this is that vehicles meet customer demands by the optimal interplay of various mechanical and electronic components. Many functions in the areas of comfort, safety and efficiency are only made possible by mechatronic systems. In this context, specific expertise in the mechatronic disciplines, combined with social- and business economics competences, will be central requirements for future employees and managers in the automotive industry. Precisely these requirements are the focus of the new Master’s degree Automotive Mechatronics and Management....
The goal of the Master of Science (MS) degree program is to provide students with an opportunity to strengthen their technical backgrounds for pursuing successful profess
Mechanical engineers invent, analyze, and manufacture mechanical components and systems. Learn tools to succeed across engineering fields like automotive, aerospace, shipping, power, heating and cooling, and machinery, as well as the new and emerging fields of robotics, micro- and nanodevices, and medical devices.
The Mechanical Engineering Master of Science degree program provides students with opportunities to strengthen their technical backgrounds for pursuing successful professional careers in engineering research, development, and management. Graduate students enrolled in the Mechanical Engineering master’s programs have the option of pursuing a master of science degree with or without a thesis....
California Polytechnic State University, San Luis Obispo
The master’s program in Mechanical Engineering at Cal Poly is designed to prepare you to work in research or product design. It provides a system level foundation of know
Master the Skills of Product Design
Welcome to Graduate Education at California Polytechnic State University in San Luis Obispo, California
The master’s program in Mechanical Engineering at Cal Poly is designed to prepare you to work in research or product design. It provides a system level foundation of knowledge and students can select an area of emphasis based on their specific area of technological interest. Degree candidates can select a thesis option or a non-thesis option. Graduates will develop competency in advanced mathematics, formulate system level solutions to problems, and develop effective communication and project management skills. Career opportunities can be found in automotive, computers, electronics, aviation, defense, HVAC, petroleum, food production, and many other fields....
Mechanical engineering is a very broad field of study in the engineering sciences. It integrates almost all disciplines of technology. Any device or product that is used
Mechanical engineering is a very broad field of study in the engineering sciences. It integrates almost all disciplines of technology. Any device or product that is used in modern, everyday life is the result of an ongoing synergy between different basic techniques. In short, all products in modern society arose from the merger of different technical disciplines. Mechanical engineering is the preferred integrator specialized for realizing this.
What's the Master of Mechanical Engineering all about?
The Master of Science in Engineering: Mechanical Engineering is a general training program integrating all disciplines of basic sciences, engineering, and technology. An essential element of the mechanical engineering curriculum at KU Leuven is the direct training of each student in a real-life industrial or research setting. Following up on the design assignment in the Bachelor's program, the Master's program brings the student in close contact with the industrial reality....
Where will you make your mark in future innovations? Will you help provide cleaner and more sustainable energy, improve human health or devise better technologies for gro
Where will you make your mark in future innovations? Will you help provide cleaner and more sustainable energy, improve human health or devise better technologies for ground and air transportation, or even space exploration?
You’ll plan your degree program with the assistance and approval of your major professor and advisory committee. Graduation requires earning a B average in all courses.
24 credit hours of graduate-level courses. A minimum of 18 credit hours must be selected from courses offered by the Department of Mechanical and Energy Engineering. Remaining coursework may be selected from other departments with your faculty advisor’s approval.
6 credit hours of master’s thesis. An oral presentation of the thesis is required. A decision on acceptance of the thesis is made by your advisory committee.
The programme aims to give students professional knowledge and skills for a successful career in the future that are orientated to ICT intensive engineering technologies,
The programme aims to give students professional knowledge and skills for a successful career in the future that are orientated to ICT intensive engineering technologies, such as mechatronics, robotics and automation, which presume professional abilities to integrate, conduct and lead complex engineering projects integrating smart ICT and hardware technologies for solving practical problems and starting a new business. This programme is strongly orientated towards practical, hands-on projects and developing practical skills supported by laboratories of mechatronics, robotics, machine vision, automation, etc. and computer classes.
Most of the courses are project-based supported by theoretical materials. There are several Practical Project courses on the first year containing the topics of machine control, autonomous and industrial robotics and mechatronics and sensory systems aimed to work with some real industrial applications by student groups ending with presenting a conference paper as a rule. Examples of this kind projects are "Smart control of collaborative robots", "3D vision serving for robots" and "UAV and UGV control simulation and hardware systems", etc....
Budapest University of Technology and Economics, Faculty of Mechanical Engineering
The Master of Science (M.Sc.) programs offered at The Budapest University of Technology and Economics (BME) are not restricted to those who received their B.Sc. diplomas
The Master of Science (M.Sc.) programs offered at The Budapest University of Technology and Economics (BME) are not restricted to those who received their B.Sc. diplomas in engineering at BME. These programs are open to all students who receive diplomas in mechanical engineering, mechatronics engineering or transportation engineering at any of the Hungarian or foreign institutions of higher education.
The entrance requirements of the programs have been defined in a way which also allows someone having a B.Sc. in another engineering area, physics, mathematics or computer science to join the M.Sc. programs while fulfilling a few additional requirements.
In the M.Sc. curriculum there are 30 credit points which are dedicated to the final project. This can be completed in two semesters (Final Project A and Final Project B). It is a prerequisite that at least 55 credit points as well as any “supplemental” subjects be completed prior to beginning the Final Project A. In order to begin the Final Project B, it is required that the student finish – excluding the elective subjects – 79 credit points worth of the M.Sc. subjects found in the curriculum....
MECHThe program of the second cycle full-time studies in the field of Photonics Engineering specialization is developed as a high-quality educational offer in the area of
M.SC. Photonics Engineering
The programme of the second cycle full-time studies in the field of Photonics Engineering specialisation is developed as a high-quality educational offer in the area of modern optics, photonics and optomechatronics. After graduation students will pursue their professional career in the diverse areas of photonics, especially: mathematical and numerical modelling, the design of optomechanical systems, image processing and recognition, optical methods of testing, diffraction optics and micro-optics. The profile of a graduate corresponds with the challenges of the 21st century. The unique knowledge, delivered during courses, enables the graduate to pursue a promising career as engineers and researchers in modern fields of science, technology and industry, which are dynamically developing....
The Master's degree in "Verbundwerkstoffe/Composites" is intended for engineers and graduates of mathematics and natural sciences with professional experience, who would
PFH Hansecampus Stade/Hamburg
Verbundwerkstoffe/Composites Master of Science (M.Sc.)
The Master's degree in "Verbundwerkstoffe/Composites" is intended for engineers and graduates of mathematics and natural sciences with professional experience, who would like to gain a qualification in the area of composites via the professional development route. The particular focus of the study program is on both carbon fiber-reinforced plastics (CFRP, colloquially known as "carbon") and glass fiber-reinforced plastics (GFRP). The course is structured as a total of four block units, each of 17 days' duration, and a weekend course.
You can complete the study program either in German or in English. A Master's qualification will open up the best possible career prospects, with the CFRP branch of the economy alone being forecast to grow by 10 percent a year. The high demand for specialists in composites is therefore bound to continue to increase in future....
In the Master's programme, Mechatronic System Design you will be familiarised with the design and simulation of modern mechatronic machines, which comprise a mechanical s
Intense competition is putting pressure on machine builders to deliver machines with higher output, reduced operating cost, and increased safety.
Increasing demands on the productivity of complex systems, such as manufacturing machines, requires the application of new methods in the product development process. Mechatronic system design is gaining popularity in the machine design process and it is a key approach in the production process of productive life cycle efficient machines.
In the Master's programme Mechatronic System Design, you will be familiarised with the design and simulation of modern mechatronic machines, which comprise a mechanical system, power transmission (hydraulic, electric, pneumatic or hybrid) and a digital control system....