M.A. in Anthropology
The University of Tulsa, a respected private research institution in the United States,...
M.S.E. in Mechanical Engineering
Tulsa, Oklahoma
INTAKE: Jan & Aug
Program Overview
The University of Tulsa's Master of Science in Engineering (M.S.E.) in Mechanical Engineering is a comprehensive graduate program designed to equip students with advanced principles and applications in various areas of mechanical engineering. The program aims to prepare graduates for rewarding careers in a global market by providing a deep understanding of core mechanical engineering concepts and fostering the ability to apply engineering tools creatively to solve complex problems. Students can engage in diverse research opportunities, and the faculty provides close mentorship to prepare them for careers in both academia and industry.
STEM Designated: Yes, the M.S.E. in Mechanical Engineering program at the University of Tulsa is STEM-designated. This classification offers significant benefits for international students, as it typically allows for an extended Optional Practical Training (OPT) period in the United States after graduation, providing more opportunities for professional experience.
Curriculum: The M.S.E. in Mechanical Engineering curriculum is designed to provide advanced knowledge across several areas of mechanical engineering while ensuring core competency in a student's chosen sub-discipline. Courses are rooted in mathematics and science, aiming to develop creativity, analytical abilities, disciplined reasoning, communication skills, advanced technology knowledge, and sound ethics. The curriculum covers both mechanical and thermal sciences, with theoretical and practical application to laboratory and design projects. Students gain expertise in areas such as computational fluid mechanics, heat transfer, robotics, experimental and computational solid mechanics, materials science, and alternative energy systems. The program's interactive approach to learning enables students to improve their experimental skills and apply theory and analysis methods in product design and development.
Research Focus: The Department of Mechanical Engineering at the University of Tulsa is highly active in cutting-edge research, which is an integral part of the M.S.E. program. Faculty members are active investigators in a wide array of research areas, including computational fluid dynamics, fluids-thermal science, mechanics, computational mechanics, robotics, system dynamics and controls, materials science and nanotechnology, vehicle systems, and manufacturing processes and systems. Students and faculty regularly collaborate on innovative research within consortia such as the Erosion/Corrosion Research Center, Tulsa University Separation Technology Projects, and the Crash Reconstruction Research Consortium. This robust research environment, supported by external funding from sources like the National Science Foundation and Department of Energy, provides students with opportunities to contribute to novel solutions for complex engineering challenges.
Industry Engagement: The University of Tulsa's M.S.E. in Mechanical Engineering program is deeply connected to industry, preparing graduates for competitive careers. Students benefit from the department's collaborative research consortia that partner with industry to solve critical technical problems. The curriculum emphasizes hands-on projects, often serving local industry and community organizations, and students are encouraged to undertake valuable internships with respected engineering firms. This strong industry engagement is reflected in the success of its alumni, who find employment at leading companies like ConocoPhillips, Ford, Boeing, NORDAM, Apple, and Amazon, securing roles in automotive, cryogenics, fluid mechanics, and manufacturing fields.
Global Perspective: The M.S.E. in Mechanical Engineering at the University of Tulsa inherently fosters a global perspective by preparing students for rewarding careers in a "global market." Mechanical engineering is a universally applied discipline, addressing challenges and innovations in areas like sustainable energy systems, advanced manufacturing, and robotics, which have worldwide implications. The program's focus on developing graduates who can apply engineering tools creatively to a broad range of unsolved problems, combined with a diverse student body representing over 79 foreign countries at the university, ensures graduates are equipped to navigate and contribute to the international landscape of engineering and technology.
Location
Tulsa, Oklahoma
Score
IELTS 6.5
Tuition Fee
USD 27858
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 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 80 or higher.
- PTE: Overall score of 56 or higher.
- DET (Duolingo English Test): Minimum score of 105.
Standardized Test Requirements
- GRE (Graduate Record Examinations): Minimum score of 300 required.
The University of Tulsa (TU) in the United States offers a variety of scholarship opportunities to support international students in their academic journey. Attracting talented students from around the world, TU provides both merit-based and need-based scholarships to help reduce the financial burden of higher education.
Merit-Based Scholarships: International students admitted to TU are automatically considered for merit-based scholarships based on their academic achievements, standardized test scores, and overall application strength. These scholarships can significantly offset tuition costs, with awards ranging from partial tuition waivers to full scholarships. The university looks for outstanding academic records, leadership qualities, and extracurricular involvement when awarding these scholarships.
International Student Scholarships: TU offers specific scholarships aimed at international students, including renewable awards that encourage academic excellence throughout the duration of the degree program. Some scholarships are designated for particular fields of study or for students demonstrating strong community involvement.
Graduate Assistantships and Fellowships: Graduate international students may apply for assistantships and fellowships that provide tuition remission and stipends in exchange for teaching or research responsibilities. These positions not only offer financial support but also valuable professional experience within the university environment.
An M.S.E. in Mechanical Engineering from the University of Tulsa provides graduates with advanced knowledge and specialized skills across various domains of mechanical engineering. This STEM-designated program focuses on developing strong analytical abilities, creative problem-solving, and practical application of engineering principles. Students benefit from the department's active research environment, including participation in industry-collaborative consortia, and are prepared for competitive careers in a global market. With alumni finding success at leading companies like ConocoPhillips, Ford, Boeing, Apple, and Amazon, the University of Tulsa effectively equips its graduates for high-demand roles in automotive, aerospace, energy, and manufacturing sectors.
Design Engineer: Mechanical design engineers conceptualize, model, and develop new products, systems, and components. This can range from consumer goods to industrial machinery, requiring expertise in CAD software, materials science, and manufacturing processes.
Research & Development (R&D) Engineer: Engage in cutting-edge research to innovate and improve existing technologies or create entirely new ones. This might involve working on advanced materials, renewable energy systems, robotics, or developing solutions for complex engineering challenges.
Manufacturing Engineer: Focus on optimizing production processes to improve efficiency, reduce costs, and ensure product quality. They work to design and implement manufacturing systems, integrate automation, and troubleshoot production issues.
Aerospace Engineer: Design and develop aircraft, spacecraft, satellites, and related systems. This includes working on aerodynamics, propulsion systems, structural analysis, and ensuring safety and performance in the demanding aerospace industry.
Automotive Engineer: Contribute to the design, development, and testing of vehicles, including traditional and electric vehicles, powertrains, chassis systems, and vehicle safety features. This field is constantly evolving with advancements in sustainable mobility.
HVAC (Heating, Ventilation, and Air Conditioning) Engineer: Design, analyze, and optimize HVAC systems for residential, commercial, and industrial buildings. They ensure thermal comfort, air quality, and energy efficiency, crucial in construction and building services.
Robotics Engineer: Design, build, and program robotic systems for various applications, including industrial automation, healthcare, and exploration. This involves integrating mechanical, electrical, and software components to create intelligent machines.
Thermal Engineer: Specialize in heat transfer and energy conversion systems. They work on the design and analysis of heat exchangers, power plants, cooling systems, and thermal management in electronics, often in the energy, automotive, or aerospace sectors.
Project Engineer: Oversee and manage complex engineering projects from initiation to completion. They are responsible for planning, budgeting, scheduling, coordinating teams, and ensuring that projects meet technical specifications and deadlines.
Consulting Engineer: Provide specialized technical expertise and problem-solving services to diverse clients across various industries. This could involve advising on process optimization, material selection, product development, or sustainability initiatives.
