Program Learning Outcomes:

By the end of this program, students will be able to:

  1. Demonstrate a comprehensive understanding of the core body of knowledge in pure, applied, and educational mathematics.
  2. Apply mathematical principles and techniques to solve a wide range of problems, both theoretical and practical, using appropriate methods and tools.
  3. Apply pedagogical knowledge and teaching methodologies to design and deliver effective mathematics lessons, catering to diverse learning styles and abilities.
  4. Integrate interdisciplinary knowledge from other disciplines such as physics to understand the mathematical foundations and applications in related fields such as geometry.
  5. Utilize critical thinking and analytical skills to evaluate mathematical arguments, identify misconceptions, and construct logical proofs.
  6. Demonstrate an understanding of ethical considerations in the field of mathematics, including academic integrity, responsible data handling, and the ethical implications of mathematical research.
  7. Exhibit professional skills and attitudes, such as time management, organization, adaptability, and a commitment to lifelong learning in the field of mathematics and education.
  8. Effectively apply various teaching technologies, techniques, and classroom strategies to influence student learning positively.
  9. Collaborate effectively in teams, engaging in academic debate and constructive discussions to analyze and solve mathematical problems.
  10. Apply principles of educational psychology to understand student learning and development and implement appropriate strategies to support student progress in mathematics through informed evaluation and assessment methods.
  11. Communicate effectively in English, Turkish, and Kurdish both orally and in writing, demonstrating advanced language skills in technical and academic contexts related to mathematics.
  12. Develop proficiency in programming using Python and other languages, and enhance computational skills, especially in MATLAB, in order to analyze and solve mathematical problems, perform data analysis, and implement algorithms.
  13. Demonstrate competency in conducting independent research in mathematics, including formulating research questions, gathering, and analyzing data, and presenting findings.
  14. Apply principles of educational psychology to understand student learning and development and implement appropriate strategies to support student progress in mathematics.
  15. Integrate interdisciplinary knowledge, particularly in physics, to understand the mathematical foundations and applications in related fields.