This course aims to learn and deal with advanced mathematics, use concepts and formulas of mathematics in solving physics issues and scientific research, and help develop skills and ways of thinking in dealing with advanced issues that serve research fields. It covers vectors, matrices, multi-order, beta and gamma functions, error calculation, numerical analysis, Bessel and Legend functions, and spherical symmetry.

This course aims to familiarize the student with the concepts of classical physics and the use of different methods to understand and address physics issues and to help develop skills and methods of thinking in dealing with advanced issues in the service of scientific research. It covers topics of basic principles of body mechanics, the principle of covariance, Lagrangian equations, topics of centripetal force and coeval Hamilton and its applications.

This course aims to familiarize the student with advanced electricity and magnetism and the use of advanced mathematics concepts and formulas in solving scientific research issues related to electromagnetic theory and helping to develop skills and ways of thinking in dealing with advanced issues as well as training in the use of special theories to solve electromagnetic problems. It covers topics of problems Boundary conditions in electrostatics I and problems of boundary conditions in electrostatics II and multipolar and electrostatics and insulators and variable fields

This course aims to familiarize students with the difference between classical and quantum physics, the ability to solve and manipulate eigenfunctions, deal with angular momentum and spin in quantum systems, and the ability to quantitatively represent using matrices to solve a research problem. It covers topics of quantum dynamics, angular momentum theory, and dispersion theory.

This course aims to familiarize yourself with and deal with micro- and multi-particle systems, use some statistical concepts and formulas in solving physics problems, help develop thinking skills and methods in dealing with advanced issues in multi-particle systems, and also use some advanced numerical concepts and methods to study multi-particle systems.

This course aims to introduce the student to the principles of quantum field theory, to master the principles of the second quantization, and to know the methods of interaction between different quantum fields of different ranks in scientific research. It covers topics of photons, electromagnetic field, Klein-Gordon field, Dirac field, Photons covariant theory, and Radiative correction.

This course aims to the student with the theoretical basis of nuclear physics and distinguish between the rules and theories in studying nuclei and identifying its properties as well as developing skills and ways of thinking in dealing with scientific research.

The course aims to the student with the theoretical basics in physical medicine, especially nuclear medicine, knowledge of devices and applications used in nuclear medicine and the methods used to rebuild the image.

This course aims to achieve the following outputs:1- Identifying the basic radiological theories associated with the production of ingredients and the student's understanding of the theory of X-ray and a tomography device.2- Preparing the student from doing research and analysis and interpreting phenomena related to radio photography.3- The student is familiar with the risks and precautions dealing with radiology in hospitals and research centers which enables the student to absorb advanced topics in diagnostic and therapeutic rays.

This course aims to achieve the following:1- The student's familiarity with programming using the Matlab program2- The ability to complete projects with the computer using Matlab.3- The student's familiarity with the mechanism for doing the research and completing and analyzing the results

This course aims to:Introducing the second quantization and using it in the intensive caseDefinition of Green's functions at absolute zeroTo be familiar with the Feynman problem and Dyessen's equations Identify Green's functions at a specific temperatureBe able to describe hyperconduction using quantization II and learn about BCS theory

This course is deleted that the student is able to organize the research program) the graduation project (and its coordination, organizing and arranging ideas, describing tables and shapes and analyzing them and writing in a smooth and harmonious way and in the scientific context and preparing the research proposal and writing scientific reports according to the requirements of the plan to write the research project and cover KEFA topics writing sentences and time Suggestions and project proposal

This course aims to introduce the student to how to formulate the physical issue in a mathematical model and the ability to use numerical analysis to solve the sports model and solve and address physical issues in various branches using computer.

This course aims to the student to collect information and the ability to deliver and use the visual presentation program and develop his scientific abilities from discussing (or defending his style) his ideas and providing him with the skill of thinking in dealing with scientific research.

This course aims to achieve the following:1- The student is familiar with the mechanism of doing the research, completing the results, analyzing them, writing a message and defending them2- Helping to develop the skills and methods of thinking about dealing with scientific research.3- The ability to solve and address a physical issue in one of the theoretical or practical branches4- The ability to write reports, submit and discuss light offers, and discuss (or defend his style) on his ideas.