MS in Accounting
Northeastern University in Boston offers a robust MS in Accounting pro...
MS in Mechanical Engineering
Boston
INTAKE: Jan & Sept
Program Overview
The MS in Mechanical Engineering program at Northeastern University is designed to provide students with a comprehensive understanding of mechanical engineering principles while emphasizing practical applications and cutting-edge technological advancements. The program aims to develop professionals capable of solving complex engineering challenges by blending theory with real-world experience. Students are exposed to a range of subjects, including thermodynamics, dynamics, materials science, and mechanical design, which prepare them to work in diverse fields such as aerospace, automotive, energy, and robotics. Northeastern’s emphasis on experiential learning, particularly through co-op programs, offers students the opportunity to apply their knowledge in professional settings, enhancing their academic experience and career prospects.
Curriculum: The MS in Mechanical Engineering curriculum at Northeastern University is both flexible and rigorous, offering students the option to choose from various concentrations such as robotics, advanced materials, thermal systems, and fluid mechanics. Core courses cover fundamental areas such as solid mechanics, heat transfer, and control systems. Students are also required to complete advanced courses in their area of specialization, such as computational mechanics, renewable energy systems, or mechatronics. The curriculum is designed to strike a balance between theory and practical application, ensuring that graduates are equipped with both the analytical and hands-on skills necessary to excel in the field. Additionally, the program allows students to tailor their educational experience with elective courses that align with their specific career goals.
Research Focus: The MS in Mechanical Engineering program at Northeastern University places a strong emphasis on research, particularly in areas like materials science, robotics, renewable energy, and advanced manufacturing. Faculty members are involved in cutting-edge research that pushes the boundaries of mechanical engineering, and students have the opportunity to engage in projects that contribute to innovative solutions for real-world challenges. Research areas include autonomous systems, nanomaterials, energy storage systems, and sustainability in mechanical design. Through collaborative research efforts, students gain valuable hands-on experience that prepares them for careers in academia, industry, or government labs. The program fosters an environment that encourages creative problem-solving and interdisciplinary approaches, making it a suitable choice for students interested in advancing the field of mechanical engineering.
Industry Engagement: One of the key features of the MS in Mechanical Engineering program at Northeastern University is its emphasis on industry engagement through the university's renowned co-op program. The program provides students with the opportunity to work with leading companies in sectors such as aerospace, automotive, manufacturing, and energy. These co-op placements enable students to gain practical experience, develop professional networks, and apply the skills learned in the classroom to real-world engineering problems. Northeastern’s strong ties to industry and its extensive network of employers ensure that students are well-prepared to enter the workforce upon graduation. In addition to co-op opportunities, students have access to internships, industry projects, and collaborations with organizations that support their professional growth.
Global Perspective: The MS in Mechanical Engineering program at Northeastern University is globally recognized and attracts students from diverse backgrounds around the world. The program’s global perspective is further enhanced by the university’s collaborative partnerships with leading institutions and industry organizations across the globe. Students are encouraged to engage in international research projects, attend global conferences, and participate in study-abroad programs that provide exposure to different engineering practices and technological advancements. This international exposure allows students to develop a broader understanding of engineering challenges and solutions in different cultural and economic contexts, preparing them to work in a globalized engineering workforce.
Location
Boston
Score
IELTS 6.5
Tuition Fee
USD 29824
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 79 or higher.
- PTE: Overall score of 53 or higher.
- DET (Duolingo English Test): Minimum score of 105.
Northeastern University in Boston offers a range of scholarship opportunities for international students to help alleviate the financial burden of studying in the United States. These scholarships are designed to support academically talented students from around the world, promoting diversity and fostering an inclusive campus environment.
Merit-Based Scholarships: Northeastern University provides merit-based scholarships to international students based on academic excellence and achievements. These scholarships are awarded during the admissions process and are highly competitive. The amount and criteria for these scholarships may vary, but they aim to recognize students who demonstrate exceptional academic performance, leadership potential, and a strong their chosen field of study.
Northeastern International Scholars Program: This prestigious program offers scholarships to outstanding international students who exhibit leadership, academic excellence, and a desire to contribute to the global community. The Northeastern International Scholars Program provides both financial support and opportunities for personal growth through networking events, leadership training, and involvement in community service initiatives.
Need-Based Financial Aid: Although Northeastern University does not offer need-based financial aid to international students, there are still many merit-based scholarships available that can significantly reduce tuition costs. However, international students are encouraged to seek external scholarships or funding from their home country to help cover the remaining costs.
External Scholarships and Funding: In addition to institutional scholarships, international students at Northeastern University can explore a variety of external scholarship opportunities from governments, foundations, and organizations in their home countries. Many international students receive funding from these sources to support their education at Northeastern.
Graduates of the MS in Mechanical Engineering program at Northeastern University have a broad array of career opportunities in various industries, thanks to the program's robust academic foundation and its emphasis on practical, real-world experience. The program equips students with advanced knowledge in mechanical design, materials science, thermodynamics, and system dynamics, enabling them to solve complex engineering challenges in a variety of sectors.
Mechanical Engineer: One of the most common career paths for graduates is becoming a mechanical engineer, where they apply their knowledge to design, analyze, and test mechanical systems and devices in industries such as automotive, aerospace, and manufacturing. Mechanical engineers often work on developing new technologies, improving product efficiency, and ensuring that products meet safety and performance standards.
Aerospace Engineer: Graduates can pursue careers as aerospace engineers, where they design and test aircraft, spacecraft, and related systems. Aerospace engineers often work in the defense, aviation, and space exploration industries, applying advanced mechanical engineering principles to develop cutting-edge technologies in flight mechanics, propulsion, and aerodynamics.
Robotics Engineer: Given the increasing demand for automation in industries like manufacturing and healthcare, many graduates go into robotics engineering. Robotics engineers design and develop robotic systems, often integrating mechanical, electrical, and software engineering to create robots used in industrial automation, medical devices, and consumer products.
Materials Engineer: With a strong background in materials science, graduates can work as materials engineers, developing new materials or improving existing ones for use in various applications such as electronics, automotive components, and renewable energy technologies. Their work focuses on optimizing material properties like strength, durability, and efficiency to meet specific industry requirements.
Automotive Engineer: Graduates can pursue careers in the automotive industry, where they work on the design, development, and manufacturing of vehicles and automotive systems. Automotive engineers use their mechanical engineering expertise to improve vehicle performance, safety features, and fuel efficiency, while also working on the development of electric and autonomous vehicles.
Energy Engineer: Energy engineers focus on designing and implementing systems for the production and distribution of energy. With an emphasis on sustainable technologies, they work on projects related to renewable energy sources such as solar, wind, and geothermal energy, contributing to the development of environmentally friendly energy solutions.
Manufacturing Engineer: Manufacturing engineers apply mechanical engineering principles to the design and improvement of manufacturing processes and systems. They are involved in optimizing production lines, increasing efficiency, reducing costs, and improving product quality in industries such as electronics, consumer goods, and heavy machinery.
HVAC Engineer: Graduates can work as heating, ventilation, and air conditioning (HVAC) engineers, designing systems that control temperature, air quality, and humidity in buildings. HVAC engineers play a crucial role in developing energy-efficient and environmentally friendly solutions for residential, commercial, and industrial buildings.
Consulting Engineer: With the technical expertise gained from the program, some graduates choose to become consulting engineers, offering their knowledge and advice to companies in need of specialized engineering solutions. Consulting engineers often work in fields like product development, system optimization, or energy efficiency.
Research and Development Engineer: Many graduates pursue careers in R&D, where they work on innovative projects to develop new products, technologies, or manufacturing processes. In this role, engineers apply their theoretical knowledge to solve complex engineering problems and create next-generation technologies in fields such as biotechnology, defense, or advanced materials.
Project Manager: For those interested in the management side of engineering, becoming a project manager is a viable career option. In this role, graduates oversee engineering projects, managing timelines, budgets, and resources while ensuring the successful execution of technical and operational goals.
