The Mechanical Engineering program equips students with the knowledge and skills to design, analyze, and manufacture mechanical systems. Students explore areas such as thermodynamics, materials science, and mechanical design. Graduates are well-prepared to work in industries ranging from automotive and robotics to energy and manufacturing, contributing to the development of mechanical innovations.
Advanced Fields in Engineering explores specialized and advanced topics in engineering disciplines. The course content may vary, covering specific engineering subfields, research areas, and advanced methodologies.
Latest Developments in Engineering explores cutting-edge developments in engineering disciplines. Topics may include emerging technologies, research trends, and their impact on various engineering fields.
Engineering Numerical Methods equips students with numerical techniques for solving engineering problems. Topics include approximation methods, interpolation, and numerical solutions to differential equations.
E-Engineering explores the principles and applications of electrical engineering in electronic systems. Students will delve into electronic circuits, digital devices, and their use in various electronic applications.
Engineering Management focuses on the principles and practices of managing engineering projects and teams. Students will learn about project planning, leadership, and the effective management of engineering resources.
Study mechanical systems and software, emphasizing the integration of software and hardware in mechanical engineering. Analyze the application of software tools in mechanical design and analysis.
Advance your understanding of mechanics of materials, covering advanced topics in material behavior, deformation, and failure analysis. Analyze complex loading conditions and material properties.
Explore heat and mass transfer, focusing on the principles of energy transfer and the movement of mass in engineering systems. Analyze heat exchangers, conduction, convection, and diffusion.
Study advanced machine design, emphasizing the design and analysis of mechanical systems. Analyze engineering materials, stress analysis, and machine components.
Study mechatronics, an interdisciplinary field combining mechanical engineering, electronics, and computer science. Learn about the design and control of mechatronic systems, automation, and the integration of mechanical and electronic components.
| Fees Breakdown | Cost |
|---|---|
| MASTER'S DEGREE (ME) | $27,000 |
| Medical Insurance | $0.00 |
| Personal Expenses | $0.00 |
| Study Materials | $0.00 |
| Food Cost | $0.00 |
| Total Tuition Fee | $27,000 |
At the University of North Carolina, we champion the synergy of affordability and opportunity. Our unwavering dedication to accessible education ensures that exceptional learning doesn't come with an exorbitant price. We unlock the gates to knowledge, extending students the opportunity to flourish without the heavy weight of overwhelming tuition costs, empowering them for a brighter, more promising future.
Explore UONC’s Eligibility Criteria for Students Worldwide
Bachelor's Degree or equiv. international education
60
1 Year (Self-Paced)
10
At the College of Engineering, our curriculum is structured to lay a solid groundwork in engineering basics and technical expertise. Students commence their journey by cultivating a profound grasp of fundamental engineering disciplines and acquiring practical skills in creative problem-solving and innovation. This technical foundation equips our students for a prosperous career in the ever-evolving realm of engineering.
Beyond the classroom, our College of Engineering places a significant emphasis on real-world applications and industry partnerships. Students have opportunities to work on engineering projects, collaborate with engineering firms, and engage in research with cutting-edge technology. These experiences not only enhance their practical engineering skills but also provide valuable insights into the industry.
At the University of North Carolina's College of Engineering, our steadfast commitment lies in tackling worldwide engineering complexities and nurturing international partnerships. Our curriculum delves into global engineering methodologies and inspires students to partake in projects with a far-reaching impact. Moreover, we provide study abroad programs and actively collaborate with engineers from across the globe, equipping our students with a comprehensive global perspective on the field of engineering.
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