M.S. in IT Administration & Security
The M.S. in IT Administration & Security at NJIT provides a comprehensive curriculu...
Newark, New Jersey
INTAKE: Jan & Sept
The B.S.E.T. in Mechanical Engineering Technology program at New Jersey Institute of Technology (NJIT) is designed to provide students with a solid foundation in mechanical engineering principles and practical skills. The program emphasizes the application of mechanical engineering concepts to solve real-world problems, focusing on areas such as machinery design, thermodynamics, materials science, and system dynamics. Students are prepared for careers in various sectors, including manufacturing, automotive, aerospace, and energy.
STEM-Designated: The B.S.E.T. in Mechanical Engineering Technology program is STEM-designated, underscoring its focus on Science, Technology, Engineering, and Mathematics. This designation highlights the program’s commitment to technical and analytical skills essential for mechanical engineering technology. For international students, the STEM designation provides an extended Optional Practical Training (OPT) period, allowing additional time for gaining work experience in the U.S. after graduation.
Curriculum: The curriculum for the B.S.E.T. in Mechanical Engineering Technology program at NJIT includes a blend of core mechanical engineering courses, technical electives, and hands-on laboratory experiences. Key courses include Thermodynamics, Fluid Mechanics, Mechanical Design, Manufacturing Processes, Dynamics, and Materials Science. The program also includes foundational courses in mathematics, physics, and engineering principles. Practical experience is emphasized through labs, design projects, and internships.
Research Focus: Research in the B.S.E.T. in Mechanical Engineering Technology program at NJIT often centers on innovative mechanical systems, advanced manufacturing techniques, and energy-efficient technologies. Key areas of research include robotics, automation, material properties and testing, and thermal systems. Faculty and students engage in research projects that address contemporary challenges in mechanical engineering, aiming to develop new technologies and improve existing systems.
Industry Engagement: The B.S.E.T. in Mechanical Engineering Technology program emphasizes strong industry engagement to enhance students' practical experience and career readiness. NJIT collaborates with various industries and organizations to offer internships, co-op programs, and industry-sponsored projects. Students benefit from networking opportunities, industry site visits, and guest lectures by professionals in the field. This engagement helps students gain hands-on experience and build connections with potential employers.
Global Perspective: The B.S.E.T. in Mechanical Engineering Technology program incorporates a global perspective by addressing international trends and practices in mechanical engineering. The curriculum includes coursework on global engineering standards, international manufacturing practices, and cross-cultural considerations in engineering projects. Students are encouraged to participate in study abroad programs and international research collaborations to gain a broader understanding of global engineering challenges and opportunities.
Newark, New Jersey
IELTS 6
USD 35934
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
New Jersey Institute of Technology (NJIT) recognizes the importance of supporting international students in pursuing their academic goals. To attract and assist talented students from around the world, NJIT offers several scholarships and financial aid options specifically designed for international students.
Global Highlander Scholarship: The Global Highlander Scholarship is a merit-based scholarship offered to incoming international undergraduate students. It is awarded based on academic achievements, leadership qualities, and extracurricular involvement. The scholarship amount varies and is renewable for up to four years, provided the student maintains the required GPA.
International Presidential Scholarship: The International Presidential Scholarship is another prestigious merit-based award available to exceptional incoming international undergraduate students. Recipients of this scholarship receive a substantial amount of financial aid to support their education at NJIT.
International Transfer Scholarship: International students transferring to NJIT from other universities or colleges may be eligible for the International Transfer Scholarship. This merit-based award aims to recognize academic excellence and provide financial support to deserving transfer students.
Educational Opportunity Fund (EOF) Grant: The Educational Opportunity Fund Grant is available to New Jersey residents, including eligible international students. This grant provides financial assistance to students with demonstrated financial need.
Albert Dorman Honors College Scholarship: The Albert Dorman Honors College at NJIT offers scholarships to students accepted into the Honors College program. These scholarships recognize academic excellence and provide enhanced educational opportunities and support.
Private and External Scholarships: In addition to NJIT-specific scholarships, international students may be eligible to apply for private or external scholarships that are not directly offered by the university. These scholarships may be provided by government agencies, organizations, foundations, or other institutions.
Graduates of the B.S.E.T. in Mechanical Engineering Technology program from New Jersey Institute of Technology (NJIT) have a wide range of career opportunities in various industries. The program's blend of theoretical knowledge and practical skills equips students for diverse roles in the mechanical engineering field.
Mechanical Design Engineer: Mechanical Design Engineers create and develop mechanical systems and components. They use computer-aided design (CAD) tools to design parts, assemblies, and systems, ensuring they meet performance, safety, and reliability standards.
Manufacturing Engineer: Manufacturing Engineers focus on optimizing manufacturing processes and systems. They work to improve production efficiency, reduce costs, and enhance product quality by designing and implementing effective manufacturing solutions.
Automation Engineer: Automation Engineers design and implement automated systems and machinery to streamline production processes. They work with robotics, control systems, and automation technologies to increase efficiency and reduce manual labor in manufacturing settings.
Product Development Engineer: Product Development Engineers are involved in the design, development, and testing of new products. They work on creating innovative solutions, from initial concept through to final production, ensuring products meet market needs and technical requirements.
Quality Assurance Engineer: Quality Assurance Engineers ensure that mechanical products and systems meet quality standards and specifications. They develop and implement quality control processes, conduct tests and inspections, and analyze data to improve product reliability and performance.
Thermal Systems Engineer: Thermal Systems Engineers focus on the design and analysis of thermal systems, such as heating, ventilation, and air conditioning (HVAC) systems. They work on improving energy efficiency and performance in various thermal applications.
Project Engineer: Project Engineers manage engineering projects from inception to completion. They coordinate with teams, oversee project timelines and budgets, and ensure that engineering projects are completed according to specifications and standards.
Energy Systems Engineer: Energy Systems Engineers work on designing and optimizing energy systems, including renewable energy sources and energy-efficient technologies. They focus on improving energy performance and sustainability in various applications.
Robotics Engineer: Robotics Engineers design, develop, and maintain robotic systems used in manufacturing, healthcare, and other industries. They work on integrating robotics with existing systems and improving robotic performance.
Mechanical Systems Analyst: Mechanical Systems Analysts evaluate and optimize mechanical systems and processes. They use data analysis and modeling tools to identify inefficiencies, recommend improvements, and enhance system performance.
Maintenance Engineer: Maintenance Engineers are responsible for the upkeep and repair of mechanical systems and equipment. They work to prevent breakdowns, ensure operational efficiency, and address any issues that arise with machinery.
Consulting Engineer: Consulting Engineers provide expert advice and solutions to clients on various mechanical engineering projects. They offer specialized knowledge, conduct feasibility studies, and assist with problem-solving in engineering applications.