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B.S. in Electrical Engineering

Chicago, Illinois

 

INTAKE: Jan, May & Aug

Program Overview

The University of Illinois Chicago's B.S. in Electrical Engineering program is a dynamic and STEM-designated course that equips students with a profound understanding of electrical systems, electronics, and computer systems. Rooted in innovation and practical application, the program integrates theoretical concepts with hands-on experiences, preparing students for cutting-edge careers in the field. Students delve into a comprehensive curriculum that covers subjects such as circuits, digital systems, signal processing, and control systems. The program, accredited by the Accreditation Board for Engineering and Technology (ABET), ensures the highest quality education, meeting rigorous standards in curriculum, faculty, and facilities. With a faculty comprising accomplished researchers and professionals, students engage in impactful research projects and gain insights into the latest advancements. The STEM designation signifies the program's focus on Science, Technology, Engineering, and Mathematics, providing students with a strong foundation for success in the rapidly evolving field of electrical engineering.

Curriculum:

  1. Comprehensive Curriculum: The B.S. in Electrical Engineering program offers a comprehensive curriculum covering essential aspects of electrical engineering, including circuits, electronics, digital systems, and control systems. This ensures students gain a well-rounded understanding of the discipline.

  2. STEM Designation: Recognizing the program's focus on Science, Technology, Engineering, and Mathematics (STEM), the designation signifies its alignment with fields critical to technological advancements. This prepares students for careers in high-demand STEM sectors and highlights the program's commitment to fostering innovation and technical expertise.

  3. ABET Accreditation: The program holds accreditation from ABET, a mark of excellence in engineering education. This accreditation ensures that the program meets the highest standards in curriculum, faculty qualifications, facilities, and student outcomes, providing graduates with a recognized and respected degree.

  4. Hands-On Experiences: The program places a strong emphasis on hands-on experiences, providing students with practical skills through laboratory work, projects, and real-world applications. These experiences enhance their ability to apply theoretical knowledge to solve complex engineering problems.

  5. Cutting-Edge Research Opportunities: With a faculty engaged in cutting-edge research, students have the opportunity to participate in impactful research projects. This exposure not only enhances their problem-solving skills but also keeps them at the forefront of advancements in electrical engineering.

  6. Faculty Expertise: The program boasts a faculty of experienced researchers and industry professionals, bringing diverse expertise to the classroom. Students benefit from mentorship, industry insights, and guidance from faculty members who are actively involved in advancing the field.

  7. Interdisciplinary Approach: The curriculum adopts an interdisciplinary approach, allowing students to explore connections between electrical engineering and other engineering disciplines. This holistic perspective enhances their problem-solving abilities and prepares them for interdisciplinary projects in the industry.

  8. Industry-Relevant Capstone Projects: As part of their education, students often engage in industry-relevant capstone projects. These projects provide opportunities to apply their knowledge to real-world challenges, fostering collaboration with industry partners and preparing them for professional practice.

  9. Professional Development Opportunities: The program offers professional development opportunities, including workshops, seminars, and networking events. These initiatives help students develop soft skills, stay informed about industry trends, and connect with potential employers.

  10. Preparation for Licensure: For students interested in pursuing licensure as Professional Engineers (PE), the program provides a strong foundation aligned with licensure requirements. Graduates are well-prepared to pursue the PE designation, enhancing their professional credentials.

Pollster Education

Location

Chicago, Illinois

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

USD 30400

Entry requirements for Undergraduate Programs:

  • Academic Qualifications: International students applying for undergraduate programs at UIC are expected to have completed their secondary education or its equivalent. The minimum academic requirement is a score of 60% or above in the qualifying examination.
     
  • English Language Proficiency
    • IELTS: A minimum overall band score of 6.5 is required, with no individual score below 6.0.
    • TOEFL: A minimum score of 80 is required on the internet-based test (iBT).
    • PTE: A minimum overall score of 54 is required. 

Scholarships for International Students at the University of Illinois at Chicago (UIC):

  1. UIC Global Scholarship: The UIC Global Scholarship is available for international undergraduate and graduate students who demonstrate exceptional academic achievement and contribute to the diversity of the university. The scholarship provides partial tuition waivers to recipients.

  2. Chancellor's Award Program: The Chancellor's Award Program is a merit-based scholarship offered to incoming undergraduate students at UIC. International students with outstanding academic records and achievements are eligible to apply for this competitive scholarship.

  3. UIC Distinguished International Merit Scholarships: The UIC Distinguished International Merit Scholarships are awarded to exceptional international undergraduate students who have demonstrated academic excellence and leadership potential. These scholarships cover a portion of the tuition fees.

  4. UIC International Tuition Waiver: International graduate students at UIC may be eligible for the International Tuition Waiver, which provides a reduction in tuition fees. The waiver is awarded based on academic merit and availability of funds.

  5. College-Specific Scholarships: UIC's colleges and departments offer a variety of scholarships for international students within specific academic disciplines. These scholarships are often based on academic achievement, leadership qualities, and specific program requirements. Students should check with their respective college or department for available scholarship opportunities.

  6. External Scholarships: UIC encourages international students to explore external scholarship opportunities from governmental and non-governmental organizations, both in their home countries and in the United States. These scholarships may be specific to fields of study, nationalities, or other criteria. The Office of Special Scholarship Programs at UIC can provide guidance and resources for finding external scholarships.

It is important to note that scholarship availability, criteria, and application processes may vary each year. 

Graduates of the University of Illinois Chicago's B.S. in Electrical Engineering program are well-positioned for diverse and rewarding career opportunities across various industries. With a strong foundation in electrical systems, electronics, and computer engineering, alumni are equipped to contribute to technological advancements and tackle complex challenges. The B.S. in Electrical Engineering from the University of Illinois Chicago opens doors to a wide array of career opportunities where graduates can contribute to technological innovation, research, and the development of solutions to global challenges. The program's emphasis on practical skills, research experiences, and a STEM-focused curriculum positions graduates as versatile and highly qualified professionals in the dynamic field of electrical engineering.

  1. Electronics Design Engineer: Graduates may choose careers as electronics design engineers, working on the development and optimization of electronic circuits and systems. They design components for a range of applications, from consumer electronics to industrial equipment.

  2. Control Systems Engineer: Those interested in control systems can pursue roles as control systems engineers. They design, analyze, and implement control systems for processes and machinery in industries such as manufacturing, automotive, and aerospace.

  3. Power Systems Engineer: With a focus on power systems, graduates can become power systems engineers, contributing to the design and maintenance of electrical power generation, transmission, and distribution systems. They play a crucial role in ensuring the reliability and efficiency of power infrastructure.

  4. Telecommunications Engineer: Graduates may choose careers in telecommunications engineering, working on the design and optimization of communication networks. They contribute to the development of wireless communication systems, fiber-optic networks, and other telecommunications technologies.

  5. Embedded Systems Engineer: In the field of embedded systems, graduates can pursue roles as embedded systems engineers. They design and develop embedded systems for applications such as consumer electronics, automotive systems, and medical devices.

  6. Research and Development Engineer: Graduates with a passion for innovation may work in research and development roles. They contribute to cutting-edge projects, explore new technologies, and drive advancements in electrical engineering through research initiatives.

  7. Systems Integration Engineer: Those interested in integrating complex systems can become systems integration engineers. They ensure that different components work seamlessly together in larger systems, such as integrated circuits, sensors, and control systems.

  8. Automation Engineer: Graduates may choose careers in automation engineering, specializing in the design and implementation of automated systems. They contribute to the development of robotics, industrial automation, and smart manufacturing processes.

  9. Biomedical Engineer: With a focus on the intersection of engineering and healthcare, graduates can pursue roles in biomedical engineering. They contribute to the design and development of medical devices, imaging systems, and healthcare technologies.

  10. Data Scientist/Engineer: Graduates with expertise in data analysis and machine learning may explore careers as data scientists or data engineers. They apply their electrical engineering background to analyze and derive insights from large datasets.

  11. Entrepreneur/Startup Founder: Armed with technical expertise, graduates may choose entrepreneurial paths by founding their startups or joining innovative ventures. They can develop and commercialize new technologies, products, or services in the technology sector.

  12. Project Manager: Those with strong leadership and organizational skills may transition into project management roles. They oversee engineering projects, ensuring that they are completed on time, within budget, and meet quality standards.

  13. Consulting Engineer: Graduates may work as consulting engineers, providing expert advice to organizations on electrical engineering projects. They collaborate with clients to solve complex engineering challenges and optimize systems.

  14. Academic and Research Positions: For those interested in academia, graduates may pursue academic or research positions. They can contribute to teaching, mentor students, and engage in research initiatives in universities or research institutions.

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