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B.S. in Mathematics

Chicago, Illinois

 

INTAKE: Jan, May & Aug

Program Overview

The B.S. in Mathematics program at the University of Illinois Chicago is designed to provide students with a rigorous and comprehensive education in mathematical principles and applications. Rooted in a strong STEM (Science, Technology, Engineering, and Mathematics) foundation, the program encompasses a wide range of mathematical disciplines, including algebra, calculus, statistics, and discrete mathematics. Students engage in theoretical and applied coursework, developing analytical and problem-solving skills essential for various industries and research settings. The B.S. in Mathematics program at the University of Illinois Chicago offers a STEM-designated education that combines theoretical rigor with practical applications. With a diverse curriculum, research opportunities, and a focus on applied mathematics, graduates are well-prepared for a wide range of careers in STEM fields and are equipped to make meaningful contributions to mathematical research and applications.

Curriculum:

  1. STEM Designation: The program holds a STEM designation, signifying its alignment with the core principles of Science, Technology, Engineering, and Mathematics. This designation highlights the program's focus on preparing students for careers in STEM-related fields, emphasizing quantitative reasoning and analytical skills.

  2. Diverse Course Offerings: The curriculum offers a diverse range of courses that cover foundational and advanced topics in mathematics. From abstract algebra to mathematical modeling, students explore various branches, allowing them to tailor their education based on their interests and career goals.

  3. Applied Mathematics Emphasis: While grounded in theoretical concepts, the program places a significant emphasis on applied mathematics. Students learn to apply mathematical principles to real-world problems, preparing them for careers in fields such as finance, data analysis, and scientific research.

  4. Research Opportunities: The program provides opportunities for students to engage in research projects, working closely with faculty members on cutting-edge mathematical inquiries. This hands-on research experience allows students to deepen their understanding of mathematical concepts and contributes to the advancement of mathematical knowledge.

  5. Interdisciplinary Approach: Recognizing the interdisciplinary nature of modern problem-solving, the program encourages an interdisciplinary approach to mathematics. Students may have the opportunity to collaborate with students and faculty from other disciplines, fostering a holistic understanding of how mathematics intersects with various fields.

  6. Advanced Electives: In addition to core requirements, students can choose from a variety of advanced electives that cater to specific mathematical interests. These electives may include courses in number theory, differential equations, mathematical logic, and more, providing students with a well-rounded mathematical education.

  7. Technology Integration: Acknowledging the role of technology in contemporary mathematical practices, the program integrates technology tools and software into coursework. Students gain proficiency in using mathematical software, enhancing their ability to solve complex problems and visualize mathematical concepts.

  8. Quantitative Skills for Industry: The program equips students with the quantitative skills necessary for success in diverse industries. Graduates are well-prepared for careers in finance, data science, actuarial science, and other fields where strong mathematical abilities are in high demand.

  9. Preparation for Graduate Studies: For students aspiring to pursue advanced degrees in mathematics or related fields, the program provides a solid foundation. The curriculum includes advanced courses that prepare students for the rigor of graduate-level mathematical studies.

  10. Career Guidance and Networking: The program offers career guidance and networking opportunities, connecting students with professionals in mathematical fields. Career workshops, guest lectures, and alumni events provide valuable insights into potential career paths and industry trends.

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 Mathematics program at the University of Illinois Chicago are well-positioned for diverse and rewarding career paths, leveraging their strong analytical and problem-solving skills. The program's STEM-focused curriculum equips students with a solid foundation in mathematical principles and applications, preparing them for a variety of professions across industries. The B.S. in Mathematics program at the University of Illinois Chicago opens doors to a wide array of career opportunities across industries. Graduates are equipped with analytical skills, problem-solving abilities, and a strong mathematical foundation, making them valuable contributors to various fields where quantitative expertise is essential.

  1. Actuary: Mathematics graduates can pursue careers as actuaries, assessing and managing financial risks for insurance companies, pension funds, and other financial institutions. Actuaries use mathematical models to analyze data and make informed predictions about future events.

  2. Data Scientist/Analyst: With a growing demand for data-driven decision-making, graduates may enter the field of data science. They analyze large datasets, extract meaningful insights, and contribute to strategic decision-making in industries such as technology, healthcare, finance, and marketing.

  3. Statistician: Graduates can pursue roles as statisticians, working in various sectors, including government, healthcare, and research institutions. Statisticians design experiments, collect and analyze data, and interpret results to inform decision-makers and policymakers.

  4. Mathematical Researcher: Those passionate about advancing mathematical knowledge may choose careers in research. They can work in academia, research institutions, or private organizations, contributing to the development of new mathematical theories, models, and applications.

  5. Financial Analyst: The analytical skills acquired in the program make mathematics graduates well-suited for roles as financial analysts. They evaluate investment opportunities, analyze financial data, and provide recommendations to guide investment decisions for organizations.

  6. Computer Programmer/Software Developer: Mathematics graduates with programming skills can pursue careers as computer programmers or software developers. They may develop algorithms, design software, and contribute to the creation of innovative solutions in the technology industry.

  7. Operations Research Analyst: Graduates may become operations research analysts, applying mathematical and analytical methods to optimize decision-making processes within organizations. They help improve efficiency, reduce costs, and enhance overall operational effectiveness.

  8. Educator/Teacher: With a passion for sharing mathematical knowledge, graduates can pursue careers as educators or teachers. They may teach mathematics at the high school or college level, inspiring the next generation of mathematicians and problem-solvers.

  9. Cryptographer: Graduates with an interest in cybersecurity can explore careers as cryptographers, working to develop and implement secure communication methods. They use mathematical algorithms to encrypt and decrypt sensitive information.

  10. Market Research Analyst: Mathematics graduates may work as market research analysts, helping organizations understand market trends, consumer behavior, and competitive landscapes. They contribute valuable insights to support marketing and business strategies.

  11. Government Analyst: Graduates can enter the public sector as government analysts, applying mathematical models to analyze policy outcomes, economic trends, or public health data. They may work for government agencies or research institutions.

  12. Healthcare Analyst: Mathematics graduates with an interest in healthcare can pursue roles as healthcare analysts. They analyze healthcare data, assess patient outcomes, and contribute to improving the efficiency and quality of healthcare services.

  13. Quality Assurance Specialist: In industries such as manufacturing or software development, graduates may work as quality assurance specialists. They use mathematical models to ensure products meet quality standards and perform rigorous testing to identify and resolve issues.

  14. Environmental Scientist: Graduates interested in environmental issues may work as environmental scientists, using mathematical models to analyze and interpret data related to environmental phenomena. They contribute to efforts to address environmental challenges and promote sustainability.

  15. Logistician: Mathematics graduates can pursue careers as logisticians, optimizing supply chain processes, managing inventory, and ensuring efficient distribution of goods. They play a crucial role in enhancing the overall efficiency of logistics and operations.

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