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M.S. in Engineering: Electrical
Chattanooga, Tennessee
INTAKE: Jan & Aug
Program Overview
The M.S. in Electrical Engineering at UTC is structured to deepen students' understanding of advanced electrical engineering concepts, preparing them for leadership roles in industry, research, or for further doctoral studies. The program emphasizes a blend of theoretical rigor and hands-on, problem-solving experience. Students typically have the option of a thesis track, which involves significant research and a thesis defense, or a non-thesis project/coursework option, usually culminating in a comprehensive exam. This flexibility allows students to tailor their graduate studies to their career aspirations, whether focused on research and development or direct application in industry. The program generally takes 1.5 to 2 years for full-time students to complete.
STEM-Designated: Yes, the M.S. in Engineering with an Electrical Engineering concentration at UTC is a STEM-designated program. This classification is a significant advantage, particularly for international students, as it allows them to be eligible for the STEM Optional Practical Training (OPT) extension. This extension provides up to 36 months of work authorization in the U.S. after graduation, offering more time to gain practical experience and potentially pursue long-term career opportunities. The STEM designation underscores the program's strong foundation in science, technology, engineering, and mathematics.
Curriculum: The curriculum for the M.S. in Electrical Engineering is comprehensive, covering advanced topics in various facets of electrical engineering. It includes core courses that build upon undergraduate knowledge, delving into subjects such as Digital Signal Processing, Power Systems Analysis, Microwave Circuits, and Power Electronic Circuits. Students can also choose from specialized concentrations such as Power Electronics. The program is committed to a curriculum that is broad-based in engineering fundamentals of analysis and design, with a strong emphasis on electronics, instrumentation, control systems, and power systems. Real-world design problems are stressed, and students are prepared for both theoretical understanding and practical application of electrical engineering principles.
Research Focus: UTC's Electrical Engineering program places a strong emphasis on research, encouraging students to engage in meaningful exploration of electrical engineering topics alongside faculty members. The Min H. Kao Department of Electrical Engineering and Computer Science provides opportunities to delve into several areas of research. Common research areas include power electronics, power systems, and signal processing. The department's TVA Power Engineering Lab is noted as one of the best in the South, featuring the latest in digital power protection equipment, providing students with state-of-the-art facilities for their research endeavors. Students have opportunities to contribute to cutting-edge projects and gain invaluable hands-on experience, often leading to thesis completion and publications.
Industry Engagement: The M.S. in Electrical Engineering program at UTC is highly focused on preparing graduates for successful careers in the industry. It emphasizes practical, laboratory-based learning and real-world design problems, ensuring that graduates possess the skills highly valued by employers. The department maintains a strong network with local industry partners and engineering professionals, who contribute to an external advisory board, ensuring that the department's objectives align with industry needs. Many industry leaders partner with faculty and labs, providing a vast network that can help set students up for professional success. Graduates are highly sought after by employers in various sectors, including manufacturing, telecommunications, aerospace, automotive, and healthcare.
Global Perspective: The M.S. in Electrical Engineering program at UTC inherently fosters a global perspective due to the universal applicability of electrical engineering principles and the global nature of the industries it serves. Electrical engineers are at the forefront of developing devices and systems that are used worldwide, from power grids and communication networks to advanced electronics and renewable energy solutions. The program's rigorous curriculum, diverse research opportunities, and exposure to cutting-edge technologies prepare graduates to work in multinational corporations, contribute to international research collaborations, and adapt to technological innovations originating from various parts of the world, thereby contributing to global advancements.
Location
Chattanooga, Tennessee
Score
IELTS 6.5
Tuition Fee
USD 26852
Postgraduate Entry Requirements
Application Fee: $40
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 79 or higher.
- DET (Duolingo English Test): Minimum score of 100.
Standardized Test Requirements
- GRE (Graduate Record Examinations): Minimum score of 300 required.
The University of Tennessee at Chattanooga (UTC) offers a variety of scholarship opportunities specifically designed to support international students pursuing their education in the United States. These scholarships aim to recognize academic excellence, leadership qualities, and contributions to the campus community, helping to make higher education more affordable and accessible for students from around the world.
Merit-Based Scholarships: UTC provides merit-based scholarships that international students can apply for, typically based on their academic achievements, standardized test scores, and overall potential. These scholarships often cover partial to full tuition and are renewable based on maintaining satisfactory academic performance.
International Student Scholarships: Special scholarships are available exclusively for international students, helping offset tuition fees and living expenses. These awards may vary annually and are competitive, encouraging students to demonstrate strong academic records and involvement in extracurricular activities.
Departmental Scholarships: Many academic departments at UTC offer scholarships targeted at students within specific fields of study. International students enrolled in areas such as Business, Engineering, Health Sciences, or Arts and Sciences can explore scholarship options through their respective colleges or departments.
Graduates holding an M.S. in Engineering with an Electrical concentration from the University of Tennessee at Chattanooga (UTC) are equipped with highly specialized skills and advanced theoretical knowledge that are crucial in shaping the modern technological landscape. This advanced degree, coupled with the program's emphasis on research and practical application, positions them for leadership, innovation, and higher-level responsibilities in a wide array of industries that rely on electrical and electronic systems.
Power Systems Engineer: Specializing in the generation, transmission, and distribution of electrical power, these engineers design, operate, and maintain power grids, power plants (including renewable energy facilities), and substations. They ensure the reliable and efficient delivery of electricity to homes and industries.
Electronics Design Engineer: Graduates in this role design, develop, and test electronic components, circuits, and systems for a vast array of products, from consumer electronics and medical devices to industrial control systems and telecommunications equipment. They might work with analog, digital, or mixed-signal circuits.
Control Systems Engineer: These professionals design, implement, and maintain automated control systems for various applications, including industrial manufacturing processes, robotics, aerospace systems, and automotive control. They ensure precise and efficient operation of complex machinery and processes.
Signal Processing Engineer: Focusing on the analysis, design, and implementation of algorithms for processing electrical signals, these engineers work in areas like telecommunications, audio and video processing, medical imaging, and radar systems. They are critical for filtering, compressing, and interpreting data from signals.
RF (Radio Frequency) Engineer: Specializing in wireless communication and electromagnetic wave propagation, RF engineers design and test components and systems for wireless devices, cellular networks, satellite communication, and radar technologies.
Embedded Systems Engineer: These engineers design and develop embedded systems – specialized computer systems that are part of a larger device or system. This could involve designing firmware for IoT devices, automotive electronics, or industrial automation equipment.
Test Engineer (Electrical/Electronics): Graduates in this role design and execute rigorous testing procedures for electrical components, systems, and products to ensure they meet specifications, quality standards, and regulatory requirements before release.
Research and Development (R&D) Engineer/Scientist: With an M.S. degree, graduates are well-suited for R&D roles in corporate labs, government agencies, or academic institutions. They conduct fundamental and applied research to innovate new electrical technologies, improve existing ones, and explore novel applications in areas like renewable energy, smart grids, or advanced sensors.
Computer Hardware Engineer: These engineers focus on the design, development, and testing of computer hardware components, including microprocessors, circuit boards, memory devices, and peripherals. They bridge the gap between electrical engineering and computer science.
Automation Engineer: Leveraging their knowledge of control systems and electronics, automation engineers design and implement automated solutions for manufacturing, industrial processes, and robotics, aiming to increase efficiency, productivity, and safety.
