Providing high-quality education in medical physics to prepare graduates capable of meeting labor market demands, enriching scientific research, and serving the community.
Knowledge and UnderstandingK1: Describe in depth the principles, concepts, and theories of classical physics, and comprehension of processes, techniques, and practices.K2: Recognize the broad range of modern and medical physics foundation and the comprehension of research methodologies.
SkillsS1: Apply theories and solve problems, use critical thinking in medical physics to develop creative solutions.S2: Use techniques and instruments with various complex practical activity procedures related to the medical physics field and analyze data.S3: Communicate effectively with others.S4: Use mathematical operations and information communication technology (ICT) to process and analyze data.
Values, Autonomy, and ResponsibilityV1: Demonstrate commitment to professional and academic values, standards, and ethical codes of conduct.V2: Plan for achieving academic and professional self-development and manage tasks autonomously and professionally.V3: Collaborate responsibly and constructively on leading teamwork and participate actively in developing society
Study Plan
Course details
This course aims to improve Arabic language skills in reading, writing, comprehension, and pronunciation, focusing on fundamental language skills.
This course introduces the fundamental concepts of Islamic culture, including religious principles, customs, and its cultural and social history.
This course enhances essential digital skills, such as working with software, internet tools, and information technology used in professional life.
This course aims to improve students’ English language skills in science and engineering fields through focusing on reading, writing, and technical conversation.
This course covers the basics of differential calculus, such as derivatives, limits, and their applications in solving mathematical equations.
This course focuses on developing effective communication skills in daily and professional situations, including speaking, writing, and listening.
This course covers the basic concepts of physics, such as motion, forces, energy, and the fundamental physical laws that govern natural phenomena.
This course discusses how family and community in Islam affect the development of social and moral character and their role in societal cohesion.
This course introduces the basic principles of chemistry, such as chemical reactions, atomic structure, and chemical compounds.
This course aims to enhance English language skills in science and engineering by developing specialized speaking and technical writing skills.
Focuses on enhancing critical and analytical thinking skills and developing effective learning strategies for handling information and solving problems.
Studies the impact of forces and motion on the human body and how to apply physical principles in analyzing human movement and performance.
Aims to develop English language skills for specific scientific and engineering fields, focusing on terminology and specialized techniques.
This course covers the fundamental principles of entrepreneurship, such as starting businesses, entrepreneurial thinking, and financial and managerial planning.
This course covers advanced concepts in differential calculus, such as multiple integrals and partial derivatives, and their applications in solving advanced mathematical equations.
Introduces statistical basics such as probability distributions, graphical analysis, and hypothesis testing.
This course studies oscillatory patterns and waves, such as sound waves and mechanical waves, and how to calculate frequency, speed, and their resulting effects.
This course covers the basic concepts in biology, such as cells, biological interactions, and evolution.
This course focuses on ordinary differential equations that contain independent variables and how to find solutions to these equations in various contexts.
This course studies biomolecules such as proteins, lipids, and enzymes, and how they interact within living cells.
Focuses on the study of the physical and chemical properties of matter, such as density, conductivity, and phase transitions.
This course focuses on studying the structures and vital systems in the human body, such as the nervous and circulatory systems, and their functions.
This course studies ethical values and principles in medicine, such as confidentiality, informed consent, and medical responsibility.
This course covers the mathematical methods used in medical physics applications, such as differential equations and simulation models.
This course covers the fundamentals of nuclear physics, such as nuclear reactions and interactions between charged particles and magnetic and electric fields.
This course covers the theoretical and practical foundations of optics, including light refraction, wave interference, and light reflection.
This course deals with advanced concepts in physics, such as relativity, quantum mechanics, and the properties of matter at the microscopic level.
Focuses on the study of cells and their functions, including cellular interactions, reproduction, and cell growth processes.
Focuses on the applications of laser physics in medicine, such as cancer treatment and medical imaging techniques using lasers.
This course covers methods and techniques for protecting individuals from radiation in medical and industrial environments.
This course encourages students to engage in volunteer activities that enhance their personal and professional skills while contributing to community service.
This course focuses on measuring and determining radiation doses and their applications in medicine, including measurement techniques used in radiotherapy.
This course studies the effects of radiation on living organisms and how radiation impacts cells and various organs.
This course focuses on studying diseases, their causes, symptoms, and how they affect the human body.
This course introduces the theoretical foundations of quantum mechanics, focusing on quantum phenomena such as wave-particle duality and changes in properties of subatomic particles.
This course studies the physical properties of biomaterials, such as human tissues and synthetic materials, and their use in medical applications.
This course focuses on the applications of nuclear medicine physics in diagnosis and treatment, including the use of X-rays, radioactive isotopes, and other medical techniques.
This course covers the physics of radiation used in medicine, such as radiation therapy techniques and medical imaging with radiation.
This course covers various medical imaging techniques, such as X-ray, magnetic resonance imaging (MRI), and computed tomography (CT).
Focuses on the physical and clinical foundations of radiation therapy for treating tumors and using radiation to treat specific types of cancer.
This course studies the use of computers in medical physics applications, such as computational simulations and analysis of medical data.
This course covers medical electronic devices, such as biosensors, medical imaging equipment, and therapeutic control devices.
Medical physics research applies physical principles to develop and improve diagnostic and therapeutic medical technologies, focusing on studying the effects of radiation and medical devices on biological tissues.
This course aims to provide students with practical experience in a hospital setting, enhancing their skills in applying scientific knowledge in medical treatment and healthcare.
This course allows students to apply what they have learned in their field of study by conducting a research or practical project on a topic relevant to their academic specialization.
