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B.S. in Mechanical Engineering

Chicago, Illinois

 

INTAKE: Jan, May & Aug

Program Overview

The B.S. in Mechanical Engineering program at the University of Illinois Chicago is a comprehensive and STEM-designated program that prepares students for dynamic careers in the field of mechanical engineering. Rooted in a strong foundation of scientific and mathematical principles, this ABET-accredited program emphasizes hands-on learning and practical applications. Students delve into coursework covering topics such as mechanics, thermodynamics, materials science, and fluid dynamics. The program incorporates cutting-edge technologies and fosters innovation through project-based learning. The B.S. in Mechanical Engineering program at UIC offers a STEM-designated and ABET-accredited education that combines theoretical knowledge with practical skills. Through a comprehensive curriculum, hands-on experiences, and a commitment to staying at the forefront of technological advancements, the program equips students for successful and impactful careers in the diverse field of mechanical engineering.

Curriculum:

  1. Comprehensive Curriculum: Students engage in a comprehensive curriculum that covers foundational engineering principles and specialized topics in mechanical engineering. Courses include but are not limited to statics, dynamics, thermodynamics, mechanics of materials, and machine design, providing a well-rounded education that spans both theoretical and practical aspects.

  2. STEM Designation: The program holds a STEM designation, aligning with the core principles of Science, Technology, Engineering, and Mathematics. This designation emphasizes the program's focus on providing students with a rigorous education in STEM disciplines, ensuring they are well-prepared for careers in the engineering and technology sectors.

  3. ABET Accreditation: The B.S. in Mechanical Engineering program is accredited by ABET (Accreditation Board for Engineering and Technology), ensuring that it meets high-quality standards in engineering education. ABET accreditation is a mark of excellence and signifies that graduates have received a rigorous and industry-relevant education.

  4. Hands-On Learning: The program emphasizes hands-on learning experiences, allowing students to apply theoretical knowledge in laboratory settings and real-world projects. This practical approach enhances their problem-solving skills and prepares them for the challenges they will encounter in their future engineering careers.

  5. Cutting-Edge Technologies: Recognizing the importance of staying current with technological advancements, the program incorporates cutting-edge technologies into the curriculum. Students may have the opportunity to work with state-of-the-art equipment, software, and tools used in the field of mechanical engineering.

  6. Project-Based Approach: To foster innovation and teamwork, the program adopts a project-based approach to learning. Students collaborate on engineering projects, applying their skills to solve real-world problems. This not only enhances their technical proficiency but also develops their ability to work effectively in interdisciplinary teams.

  7. Professional Development: The program places a strong emphasis on professional development, offering opportunities for internships, co-op experiences, and industry collaborations. These experiences provide students with insights into the practical applications of their knowledge and help them build valuable connections within the engineering community.

  8. Research Opportunities: For students interested in research, the program may offer opportunities to engage in cutting-edge research projects under the guidance of faculty mentors. This exposure to research enhances critical thinking skills and allows students to contribute to advancements in the field.

  9. Global Perspective: With a commitment to providing a global perspective, the program may offer international experiences such as study abroad programs or collaborative projects with international institutions. This exposure prepares students to work in a diverse and interconnected global engineering landscape.

  10. Preparation for Professional Licensure: The curriculum is designed to provide students with the foundational knowledge required for pursuing professional licensure as a mechanical engineer. Graduates are well-prepared to take the Fundamentals of Engineering (FE) exam, a crucial step towards obtaining a Professional Engineer (PE) license.

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 B.S. in Mechanical Engineering program at the University of Illinois Chicago (UIC) are well-prepared for diverse and rewarding career opportunities across various industries. Equipped with a solid foundation in engineering principles, problem-solving skills, and hands-on experience, alumni of this program find themselves in high demand for positions that require a deep understanding of mechanical systems and innovative thinking. The B.S. in Mechanical Engineering program at UIC provides graduates with a versatile skill set that opens doors to a wide range of career opportunities. Whether in traditional engineering roles, specialized industries, or emerging fields, alumni of this program are well-equipped to make significant contributions to the engineering profession and beyond.

  1. Mechanical Engineer: Graduates can pursue traditional roles as mechanical engineers, designing, analyzing, and manufacturing mechanical systems and devices. They may work in industries such as automotive, aerospace, energy, or manufacturing, contributing to the development of new products or improving existing ones.

  2. Automotive Engineer: With a focus on mechanical systems, graduates may choose to specialize in automotive engineering. They work on designing and improving automotive components, ensuring the safety, efficiency, and performance of vehicles.

  3. Aerospace Engineer: Individuals interested in aerospace may pursue careers as aerospace engineers. They design and develop aircraft, spacecraft, and related systems, contributing to advancements in aviation and space exploration.

  4. Energy Engineer: Graduates can work in the energy sector, contributing to the development of sustainable energy solutions. They may be involved in designing and optimizing energy systems, including renewable energy technologies, to address global energy challenges.

  5. Robotics Engineer: With the increasing use of automation and robotics, graduates may choose to specialize in robotics engineering. They design and implement robotic systems for applications in manufacturing, healthcare, and various industries.

  6. Materials Engineer: Graduates may work as materials engineers, focusing on the selection and development of materials for specific applications. They contribute to advancements in material science, ensuring the durability, performance, and sustainability of materials used in engineering projects.

  7. Manufacturing Engineer: Individuals interested in the production process may pursue careers as manufacturing engineers. They optimize manufacturing processes, improve efficiency, and ensure the quality of products during the production phase.

  8. HVAC Engineer: Graduates may specialize in heating, ventilation, and air conditioning (HVAC) engineering. They design and optimize systems that control indoor climate and air quality in buildings, contributing to energy efficiency and occupant comfort.

  9. Biomedical Engineer: With a focus on mechanical systems applied to healthcare, graduates may choose careers in biomedical engineering. They work on designing medical devices, prosthetics, and equipment that enhance patient care and healthcare delivery.

  10. Project Engineer: Graduates may work as project engineers, overseeing engineering projects from conception to completion. They coordinate various aspects of projects, ensuring they are completed on time, within budget, and meet specified quality standards.

  11. Consulting Engineer: Individuals may choose to work as consulting engineers, providing expertise to businesses and organizations. They offer solutions to engineering challenges, conduct feasibility studies, and contribute to the decision-making process.

  12. Research and Development Engineer: Graduates interested in innovation and research may pursue careers in research and development. They contribute to the creation of new technologies, products, and processes, driving advancements in engineering.

  13. Environmental Engineer: With a focus on sustainability, graduates may work as environmental engineers. They design solutions to environmental challenges, such as pollution control, waste management, and sustainable resource utilization.

  14. Project Management: Graduates can transition into project management roles, leading engineering projects and teams. Project managers oversee timelines, budgets, and resources to ensure successful project completion.

  15. Entrepreneurship: Some graduates may choose to start their own engineering businesses, leveraging their skills and knowledge to address specific market needs and opportunities.

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