M.A. in Sociology
George Mason University, a prestigious institution located in Fairfax, Virginia, offers...
B.S. in Electrical Engineering
Fairfax, Virginia
INTAKE: Jan & Aug
Program Overview
George Mason University (GMU), situated in the United States, offers a Bachelor of Science (B.S.) in Electrical Engineering program, providing students with a comprehensive education in electrical engineering principles, theory, and practice. The program covers a broad range of topics, including circuit analysis, electronics, electromagnetics, signal processing, power systems, and control systems, preparing students for careers in various industries, such as telecommunications, energy, electronics, and aerospace.
STEM Designated: The B.S. in Electrical Engineering program at GMU holds STEM designation, emphasizing its focus on science, technology, engineering, and mathematics. This designation highlights the program's commitment to providing students with a rigorous education in STEM fields, making them eligible for Optional Practical Training (OPT) extensions for international students upon graduation.
ABET Accredited: GMU's B.S. in Electrical Engineering program is accredited by the Accreditation Board for Engineering and Technology (ABET), ensuring that it meets the highest standards of quality and excellence in engineering education. ABET accreditation signifies that the program adheres to rigorous criteria related to curriculum, faculty qualifications, student outcomes, and continuous improvement, providing assurance to students, employers, and the public that graduates have received a quality education.
Curriculum: The curriculum of GMU's B.S. in Electrical Engineering program is designed to provide students with a strong foundation in electrical engineering fundamentals and advanced technical skills. Courses typically include topics such as circuit analysis, electronics, digital systems, electromagnetic fields, communication systems, power electronics, and control theory. Students also have opportunities to pursue electives in specialized areas such as renewable energy, robotics, wireless communications, and nanotechnology.
Research Focus: Research is a significant component of the B.S. in Electrical Engineering program at GMU, with faculty and students engaged in cutting-edge research projects across various areas of electrical engineering and related disciplines. Research areas may include but are not limited to, semiconductor devices, renewable energy systems, wireless sensor networks, biomedical imaging, machine learning for signal processing, and autonomous systems. Students have opportunities to participate in research initiatives, working alongside faculty mentors to explore innovative solutions to real-world engineering challenges.
Industry Engagement: GMU's B.S. in Electrical Engineering program emphasizes industry engagement to ensure that students gain practical skills and industry-relevant experience. The program collaborates with industry partners, research institutions, government agencies, and professional organizations to provide students with internships, co-op opportunities, and industry-sponsored projects. Through industry engagement, students gain hands-on experience with state-of-the-art equipment, technologies, and methodologies, preparing them for successful careers in the field of electrical engineering.
Global Perspective: In an increasingly interconnected world, GMU's B.S. in Electrical Engineering program encourages students to develop a global perspective on engineering issues and challenges. Students explore the impact of cultural, social, economic, and environmental factors on electrical engineering practices and innovations. They may have opportunities to participate in study abroad programs, international research collaborations, or cross-cultural engineering projects, gaining a broader understanding of global engineering issues and solutions. By embracing a global perspective, students learn to work effectively in diverse and multicultural environments, contributing to global technological advancements and societal progress.
Location
Fairfax, Virginia
Score
IELTS 6.5
Tuition Fee
USD 39170
Undergraduate Entry Requirements
Application Fees: Waiver
Academic Qualifications: Prospective undergraduate students are required to have a minimum academic achievement of 80% or above in their previous educational qualifications.
English Language Proficiency
- IELTS Requirement: A minimum overall score of 6.5 with no individual band score below 6.0.
- TOEFL Requirement: A minimum overall score of 80 is often required.
- PTE : A minimum overall score of 59 is required.
- DET Requirement: A DET score of 110 is required.
Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
George Mason University recognizes the importance of making higher education accessible to a diverse range of students, including international students. As such, the university offers a variety of scholarships to help offset the cost of tuition and support the academic pursuits of international students.
Global Excellence Scholarship: The Global Excellence Scholarship is a merit-based award available to incoming international undergraduate students. It recognizes academic achievement, leadership skills, and contributions to the community. The scholarship amount varies and is renewable for up to four years.
College and Departmental Scholarships: Many of George Mason University's colleges and academic departments offer scholarships to international students who excel in specific fields of study. These scholarships may require students to meet certain academic criteria and demonstrate a strong their chosen area of study.
Graduate Assistantships: International graduate students at George Mason University have the opportunity to apply for graduate assistantships, which provide funding for tuition and stipends for work as research or teaching assistants. These assistantships offer valuable hands-on experience while helping to offset educational costs.
International Baccalaureate Scholarships: International students who have completed the International Baccalaureate (IB) program may be eligible for scholarships based on their IB scores and academic achievements. These scholarships are available to both undergraduate and graduate students.
Private Scholarships: George Mason University encourages international students to explore private scholarship opportunities from external organizations, foundations, and government agencies. The university's scholarship office can provide guidance and resources to help students find and apply for these scholarships.
Fullbright Scholarships: International students seeking advanced degrees may be eligible to apply for the prestigious Fullbright scholarship program, which provides funding for graduate study, research, and cultural exchange opportunities in the United States.
It's important to note that scholarship availability, eligibility criteria, and application deadlines may vary.
Graduates of George Mason University's Bachelor of Science (B.S.) in Electrical Engineering program have a wide range of career opportunities available to them in various industries. Equipped with a strong foundation in electrical engineering principles and practical skills, they are well-prepared to tackle complex engineering challenges and contribute to technological advancements.
Electrical Engineer: Many graduates pursue careers as electrical engineers, working in industries such as telecommunications, power generation and distribution, electronics, aerospace, and automotive. Electrical engineers design, develop, test, and maintain electrical systems, equipment, and components, ensuring that they meet safety standards, performance requirements, and regulatory specifications.
Control Systems Engineer: Graduates may choose to specialize in control systems engineering, focusing on designing and implementing control systems for various applications, including robotics, manufacturing processes, automation, and renewable energy systems. Control systems engineers develop algorithms, software, and hardware components to regulate and optimize system performance, stability, and efficiency.
Power Systems Engineer: For those interested in power generation, transmission, and distribution, careers as power systems engineers offer opportunities to design, analyze, and optimize electrical power systems and infrastructure. Power systems engineers work on projects such as power plant design, grid integration of renewable energy sources, transmission line optimization, and grid modernization initiatives, contributing to the reliability, resilience, and sustainability of electrical grids.
Electronics Engineer: Graduates may pursue careers as electronics engineers, specializing in designing and testing electronic circuits, devices, and systems. Electronics engineers work in industries such as consumer electronics, medical devices, automotive electronics, and defense systems, developing innovative solutions to meet the growing demand for advanced electronic technologies.
Telecommunications Engineer: With the increasing demand for connectivity and communication technologies, careers as telecommunications engineers offer exciting opportunities to design, deploy, and optimize telecommunications networks and systems. Telecommunications engineers work on projects such as wireless networks, fiber-optic communications, satellite systems, and internet infrastructure, enabling seamless communication and connectivity for individuals and organizations.
Renewable Energy Engineer: Given the global focus on sustainability and environmental conservation, careers in renewable energy engineering are in high demand. Graduates may work as renewable energy engineers, designing and implementing renewable energy systems such as solar photovoltaic, wind turbine, and hydroelectric systems. Renewable energy engineers optimize system performance, conduct feasibility studies, and develop sustainable energy solutions to address climate change and energy security challenges.
Research and Development Engineer: For those interested in innovation and technology development, careers as research and development engineers offer opportunities to work on cutting-edge research projects and develop new technologies. Research and development engineers collaborate with interdisciplinary teams to identify research goals, design experiments, conduct data analysis, and prototype new products and solutions, contributing to technological advancements and scientific discoveries.
