Medical Physics is a scientific and practical discipline that studies the application of physical principles and laws in medicine. It includes the understanding of how diagnostic and therapeutic devices such as ultrasound, X-ray, MRI, CT, and lasers work, as well as radiation effects on the body and safety measures. The course equips students with essential knowledge on how physics supports diagnosis, patient monitoring, and treatment. It is especially critical in oncology, radiotherapy, high-precision diagnostics, and advanced surgical techniques.
Course Objective:
To teach the application of fundamental physical principles in medical contexts;
To familiarize students with the mechanisms of diagnostic and therapeutic medical equipment;
To understand the biological effects of radiation and how to ensure safety;
To apply modern physics-based technologies in real clinical practice.
Higher Mathematics is a foundational course designed to develop students' logical, analytical, and abstract thinking skills. It covers functions, limits, derivatives, integrals, linear algebra, differential equations, probability theory, and elements of mathematical modeling. This course equips students with strong theoretical knowledge and practical tools essential for solving problems in engineering, medicine, and science. It also fosters structured reasoning, precision, and modeling capabilities.
Course Objective: To develop mathematical reasoning, logic, and analytical thinking; To apply mathematical methods in real-world and medical problems; To enhance accuracy, structure, and problem solving approaches; To prepare students for research and advanced application of mathematics.
For students majoring in “General Medicine” • Total labor intensity: 3 credits (108 hours) • Classroom hours: 54 hours • Independent work of students: 54 hours • Semester: 1 • Final control: test