Mechanics in Medical Physics explores fundamental principles of mechanics and their applications in medical science. The course covers kinematics, Newton’s laws, work-energy principles and fluid mechanics. Emphasis is placed on biomechanics, including motion analysis, forces in the human body, and the role of mechanical stress in tissues. Practical applications such as prosthetics, medical imaging (X-ray and ultrasound physics), and rehabilitation devices are discussed. This course provides a strong foundation for understanding mechanical principles in medical diagnostics.
1. يتعلم الطالب خلال السنه الدراسية قوانين ومبادئ حقوق الانسان .
2. اعداد جيل واع بموضوع حقوق الانسان .
3. ترسيخ مفهوم الحقوق والديمقراطية عند الطلبة وأشاعتها في المجتمع.
4. مواكبة الطالب على تجارب الامم والاطلاع على اهم القرارات والمواثيق والصكوك الدولية في مجال حقوق الانسان والديمقراطية .
- الاهداف المهاراتية الخاصة بالموضوع
5. المام الطالب بحقوق الانسان والطفل والديمقراطية.
6. المام الطالب بكيفية التمسك بحقوقة والدفاع عنها وحفاظ عليها بالطرق القانونية.
7. اشاعة مفهوم الحقوق والحريات بين الطلبة.
8. الالمام بالبرامج المهمة والبروتوكولات في مجال حقوق الانسان والديمقراطية.
The "Computer Science" course for students in the Medical Physics Department at the Faculty of Science aims to equip students with essential computer skills and applications. The course covers how to navigate and use the "Windows 10" operating system, including file and application management. Additionally, students will be trained on "Microsoft Office" programs such as "Word" for creating and editing text documents, "Excel" for data organization and analysis using spreadsheets, and "PowerPoint" for creating effective presentations. The course focuses on developing students' proficiency in using these tools to manage scientific data and reports necessary for their studies and research in the field of Medical Physics.
This course provides an introduction to the fundamental principles of biology. Topics include the structure and function of cells, basic biochemistry, genetics, evolution, biodiversity, and the interrelationships of organisms with their environment. The course also explores key biological processes such as metabolism, reproduction, and cellular communication. Designed for students across various disciplines, it emphasizes scientific thinking and the application of biological knowledge in everyday life. Laboratory sessions complement theoretical learning through hands-on experiments and observations.
The Analytical Chemistry Laboratory is a state-of-the-art facility designed to support both theoretical and practical learning. The lab is equipped with advanced instruments and tools necessary for quantitative and qualitative chemical analysis, enabling students to gain hands-on experience in analyzing various chemical compounds.
This facility plays a crucial role in bridging the gap between theoretical knowledge and practical application, preparing students for future careers in medical physics, research, and analytical sciences.