A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.
Improvements made to manmade things such as tools, structures and machines are largely due to the efforts of people in the field of engineering. These people combine creativity with mathematics and worldly knowledge, resulting in innovation.
The USA remains the world’s most popular destination for international students. Universities in the US dominate the world rankings and the country also offers a wide variety of exciting study locations. State university systems are partially subsidized by state governments, and may have many campuses spread around the state, with hundreds of thousands of students.
Request Information Master's Degrees in Engineering Studies in Massachusetts in USA 2018/2019
The Master's degrees offer students a chance to advance their knowledge above that of the undergraduate level, and a chance to begin to specialize in one of the sub-disciplines of Civil or Environmental Engineering. [+]
The Master's degrees offer students a chance to advance their knowledge above that of the undergraduate level, and a chance to begin to specialize in one of the sub-disciplines of Civil or Environmental Engineering. All Master's degrees may require that students take one or more undergraduate courses as articulation (pre-requisite) if they are coming from a different undergraduate engineering or a related science field in order to become fully prepared for graduate work in Civil or Environmental Engineering.
The Master's degree programs can either be research-oriented (thesis option) or non-research-oriented (non-thesis option). The Thesis option is the only option for students who are receiving a fellowship or assistantship (GTA or GRA) from the department. Therefore, it is strongly recommended for all full-time students, even those who think that they can pay for their own education. A minimum of twenty-four (24) semester hours of approved coursework along with a minimum of six (6) hours of thesis credits is required.... [-]
The MicroMasters program concludes with two courses that leverage object-oriented thinking, digital process capabilities, and data analytics tools to build “boundary-spanning” skills in running, measuring and adapting strategic experiments that may lead to novel products, business models, and market growth.[+]
Product Manager is one of the hottest positions in the emerging digital economy. The Product Manager is essentially the “CEO” of a digital product. They understand and articulate needs; set up roadmaps, plan and coordinate the development process; champion and launch products and oversee the product lifecycle. They are the implementers of ideas in digital business innovation. In this Product Management MicroMasters program, you will gain hands-on experience in:Creating product roadmaps Taking products from initial concept through user research, co-creation, and rapid prototyping Agile and lean management practices for creating software and digital products Social media and market testing methods Applying perspective from best practices in platform-based strategies. ... [-]
Develop the fundamental skills needed for global excellence in manufacturing and competitiveness with the Principles of Manufacturing MicroMasters Credential, designed and delivered by MIT’s #1-world ranked Mechanical Engineering department. [+]
Develop the fundamental skills needed for global excellence in manufacturing and competitiveness with the Principles of Manufacturing MicroMasters Credential, designed and delivered by MIT’s #1-world ranked Mechanical Engineering department.
This program provides students with a fundamental basis for understanding and controlling rate, quality and costs in a manufacturing enterprise.
The Principles of Manufacturing are a set of elements common to all manufacturing industries that revolve around the concepts of flow and variations. These principles have emerged from working closely with manufacturing industries at both the research and operational levels.
Targeted towards graduate-level engineers, product designers, and technology developers with an interest in a career in advanced manufacturing, the program will help learners understand and apply these principles to product and process design, factory, and supply chain design, and factory operations.... [-]
Take your skills to the front line of automotive technology and become the engineer of the future [+]
The automotive industry is changing in fundamental ways. Today, the internal combustion engine is increasingly complemented or even replaced with an electric motor. Vehicles are becoming more and more autonomous, creating an ever-increasing need for better software. Consequently, skilled automotive engineers are required to meet the demands on high-quality individual mobility and transportation of people and goods, especially when considering environmental challenges and the vision of zero accidents.
In this MicroMasters program, you will learn the fundamentals of not only how a vehicle is designed, but also how to model and simulate the vehicle dynamics. Learn how to implement intelligent perception and decision procedures needed for self-driving cars and how model-based design is widely used in industry to accurately simulate the vehicle but also to design efficient algorithms.... [-]
Learn one of today’s most sought-after skills, design thinking, to help you develop new and innovative product and service solutions. [+]
Innovation. Creativity. Strategic thinking. In the past year, more than 279,000 job postings have listed these skills. Another 239,000 mention design thinking.*
Why has design thinking become one of the most sought-after skills? Employers are looking for problem-solving, creativity, critical thinking, and analytical skills to enhance the capabilities of their employees to lead their companies into a successful future. Design thinking was developed out of the processes used by designers including user understanding and user experience, however, its application may be used to address non-product oriented problems as well –from innovating a new product or service possibilities to implementing procedural change, or identifying a new strategic direction for the company.... [-]