The academic content and curriculum of the Bachelor of Science in Mathematical Engineering is designed to provide students with comprehensive knowledge in mathematics and engineering. The program builds on fundamental mathematical knowledge and enriches it with applications in engineering and technology. Below you can find the topics that make up the curriculum of this program in general:
Basic Mathematics Courses: These courses cover areas such as mathematical analysis, linear algebra, differential equations, statistics and probability theory. In these courses, students develop their mathematical thinking skills and theoretical knowledge.
Applied Mathematics Courses: Courses such as numerical analysis, optimization techniques, graph theory and cryptology are included in this category. These courses teach students how to apply mathematical theories to real-world problems.
Computer Science and Programming Courses: Programming languages, algorithm design, data structures and software engineering courses provide students with basic skills in computer science. These courses provide the ability to use computer technologies to solve mathematical problems.
Engineering Based Courses: Courses such as systems analysis, modeling and simulation, engineering statistics and operational research provide students with the skills to analyze and solve engineering problems.
Elective Courses and Projects: Students can take elective courses and participate in research projects according to their interests. These courses and projects enable students to gain in-depth knowledge and experience in the areas they want to specialize in.
Internships and Practical Training: Some programs offer students opportunities to do industrial or research-oriented internships. This allows students to consolidate their academic knowledge with practical applications and get to know the business world.
The curriculum of the Mathematical Engineering program aims to equip students with both theoretical and practical knowledge. With an interdisciplinary approach, the program follows the latest developments in the fields of mathematics and engineering and educates students as individuals who can work effectively in these dynamic fields. The curriculum provides students with skills such as analytical thinking, problem solving and creative solutions, enabling graduates to produce innovative solutions to complex engineering and technology problems.