Special Theory of Relativity, Photoelectric Ionization, X-Rays, Compton Scattering, Waves and Particles, Atomic Structure, Atomic Models, Uncertainty Principle, Pauli Exclusion Principle. This course is taught in First Year, First term
Atomic Structure and Atomic Bonding, Crystalline Structure of Solids, Defects in Solids, Diffusion, Phase Diagrams, Characterization of Materials. This course is taught in First Year, First Term
This course is taught in First Year, First term
This course is taught in First Year, First term
Multiple Integral, Regions in plane and space, Double and triple integrals, Change of variables technique and the Jacobeans, Line integrals and green theorem, ordinary differential equations of the second order and higher. Elle’s homogeneous equations and simultaneous differential equation. This course is taught in First Year, Second Term
Computers components, Representation of numbers, Storage and internal presentation, Codes and flowcharts, FORTRAN programming, Numerical Methods: Integration, Roots of equations, Solution of linear equations, Introduction to analogue computers, Introduction to Boolean algebra This course is taught in First Year, Second Term
Nuclear Reactions and Radiation, Protection and Control of Radiation, Production and Use of Nuclear Energy, Nuclear Fuel Cycle, Reactors Safety, Controlled Nuclear Fusion, Nuclear Wastes, Applications of Radiation, Health Physics. This course is taught in First Year, Second Term
Mechanical Testing of Metals (Elastic and Plastic Deformation), Failure of Materials (Fracture, Fatigue, Creep), Mechanical Properties of Ceramics, Mechanical and Thermal Properties of Polymers, Electrical Properties, Thermal Properties, Magnetic Properties, Optical Properties, Nuclear Properties, Determining the Mechanical Data of Materials, Diagnosis of Internal Structure of Materials, Heat Treatment of Steels, Nondestructive Testing. This course is taught in First Year, Second Term
This course is taught in First Year, Second Term
Nuclear Radii, Nuclear Charge and Mass, Bonding Energy and Nuclear Stability, Natural and Artificial Radioactivity, Nuclear Transmutations: Alpha, Beta, and Gamma Transmutations, Nuclear Reactions, Nuclear Forces and Models. This course is taught in Second Year, First term
Basics and Definitions, Properties of Pure Materials, Heat and Work, The First Law of Thermodynamics, The Second Law of Thermodynamics, The Entropy, Introduction to the Kinetic Theory of Gases, Maxwell-Boltzmann Distribution, Deduction of the Properties of Gases. This course is taught in Second Year, First term
This course is taught in Second Year, First term
This course is taught in Second Year, First term
This course is taught in Second Year, First term
Numerical analysis (Gauss elimination method, numerical solution of nonlinear algebraic equations, numerical integration, interpolation, numerical solution of differential equations, error analysis), linear algebra (vector spaces, independence, bases, subspaces, dimensions, linear transformations and matrices, eigen values and eigen vectors, inner product), special functions (beta and gamma functions, Legendre functions, Bessel functions, Chebyshev functions), Z-transform. This course is taught in Second Year, Second Term
Natural and Artificial Radiation Sources, Biological Effects of Radiation, Principles of Radiation Protection, Dose Calculations, Estimation of Exposure to Ionizing Radiation, Laboratory Radiation Safety, Surveying of Radiation Area, Transportation of Radioactive Materials, Radiation Protection and Organizational Standards, Policies and Organizing Rules for Handling Radioactive Materials. This course is taught in Second Year, Second Term
Thermal Behavior of Nuclear Fuel Elements, Restructuring Behavior and Redistribution of Fissionable Materials, General Requirements of Nuclear Materials, Operating Conditions in Nuclear Reactors, Choice of Materials for Different Types of Reactors (Fuel, Coolant, Clad, Containment, Control). This course is taught in Second Year, Second Term
This course is taught in Second Year, Second Term
Applications of Radioisotopes in Chemistry, Techniques in Nuclear Chemistry, Separation of Elements Using Radiochemistry, Analysis of Radioactivity by Neutrons, Nuclear Processes for Chemical Exploration, Chemistry of Hot Atom, Production of Radioisotopes for Medical Applications. This course is taught in Second Year, Second Term
This course is taught in Second Year, Second Term
This course is taught in Third Year, First term
Fundamental Laws for Heat Transfer, Steady State Conduction in One and Multiple Dimensions, Variable Conduction, Heat Transfer by Natural and Forced Convection, Condensation and Boiling, Heat Exchangers, Heat Transfer by Radiation. This course is taught in Third Year, First term
This course is taught in Third Year, First term
This course is taught in Third Year, First term
Schrödinger Wave Equation, Synchronized Oscillator, Multi Particles Systems, Potential Wells, Angular Momentum, The Scattering Problem. This course is taught in Third Year, First term
This course is taught in Third Year, First term
Vector Algebra (Revision), Electric Potential and Field, Gauss’ Law, Magnetic Field, Ampere’s Law, Faraday’s Law for Induction, Maxwell’s Equations and the Limits Conditions, Introduction to Plasma, Single Particle Motion, Fluidized Plasma, Waves in the Plasma, Diffusion and Resistance, Equilibrium and Stability, The Kinetic Theory, Introduction to Fusion Reactors and Devices, Fabrication of Semiconductors Using the Plasma, Polymers, Plasma Spray Coating. This course is taught in Third Year, Second Term
Nuclear Physics (Revision), Reactions Cross Sections, Nuclear Fission, Reaction Rates and Energy Threshold, Fission Products, Neutrons from Fission, Energy Released from Fission, Nuclear Fission Theory, Neutrons Diffusion, Fick’s Law for Diffusion, Methods for Solving the Diffusion Equations with Different Boundary Conditions, Neutrons Moderation without Absorption in Hydrogenous Media, Neutrons Moderation using Non Hydrogenous Moderators, Equation of Neutron Moderation and Diffusion, Neutrons Moderation and Diffusion with Absorption, Numerical Methods for Solving Diffusion Equations in Homogeneous Media. This course is taught in Third Year, Second Term
Radiation Sources, Interaction of Radiation with Matter, General Characteristics of Radiation Detectors, Counting Statistics, Gaseous Radiation Detectors, Ionization Chambers, Proportional Counters, Geiger Counters, Scintillation Detectors, Semiconductors Detectors, Neutrons Detectors, Miscellaneous Detectors. This course is taught in Third Year, Second Term
Irreversibility and Availability, Air Standard Cycles, Compressors, Energy Cycles, Turbines, Condensers, Evaporators. This course is taught in Third Year, Second Term
This course is taught in Third Year, Second Term
Types of reports, contents of reports, reduced reports, detailed reports, importance and object of reports, text writing, means of graphs representation, means used for representation of report writing, principles of speech, types and contents of represent This course is taught in Third Year, Second Term
Neutrons Moderation to Normal Temperature, Thermal Neutron Flux, Properties of Neutron Flux Diffusion in the Medium, Criticality Equation, Solving Diffusion Equations in Different Reactors Geometries, Nuclear Fission Rates, Energy Resulting from Fission Reaction, Energy Released after Reactor Shutdown, Heat Diffusion Equations in Media, Solving Heat Diffusion Equations in Nuclear Fuel for Different Geometrical Bodies. This course is taught in Fourth Year, First term
Gamma Ray Attenuation, Shielding against Gamma Rays, Point Kernel Method, Neutron Reactions, Shielding against Neutrons, Buildup Factor, Energy Attenuation in Media. This course is taught in Fourth Year, First term
Laplace Transformation (Revision), Modeling of Different Systems, Block Diagrams and Flow of Signals, Analysis of Time Response, Cyclic Response (Bode and Nyquest Plots), Stability, Repeated Response of Closed Circuits, Substitution, Different Reactors Models and Different Feedbacks. This course is taught in Fourth Year, First term
Fuel Cycles in Nuclear Reactors, Metals Extraction by Organic Solvents, Ion Exchange Processes, Mining, Crushing, Concentration and Purification of Uranium, Production of Uranium Dioxide and Uranium and Plutonium Metals, Calculations of Fission Products Inventory, Fuel Reprocessing, Radioactive Wastes Management, Principles of Isotopes Separation, Uranium Isotopes Separation. This course is taught in Fourth Year, First term
This course is taught in Fourth Year, First term
This course is taught in Fourth Year, First term
The Student Performs an Applied Research on: Reactors Design, Reactors Dynamics, Materials Science, Nuclear Measurements, Fusion Energy, Applications of Radioisotopes, Automatic Control, Computer Applications and Numerical Methods in Nuclear Engineering, Heat Transfer in Nuclear Systems, Nuclear Fuel Cycles and Wastes Management. This course is taught in Fourth Year, Second Term
Neutrons Energy Groups, Neutron Transport between Different Energy Groups, Heterogeneous Reactors, Solving the Neutron Diffusion Equation in Heterogeneous Reactors, Perturbation Theory in Reactors, Boiling Curve, The Critical Neutron Flux, Using Fins in Heat Transfer, Variation of Temperature in Different Parts of the Reactor, Safety Limits of Temperature, Hot Spot Factors and its Calculations, Introduction to Simulation, Types of Simulators, Engineering Safety Systems, Automatic Operation of Nuclear Reactors, Introduction to Statistical Safety Analysis, Accidents Analysis. This course is taught in Fourth Year, Second Term
Point Kinetics with and without Delayed Neutrons, Average Age Time, Reactors Response to Increase of Reactivity, Stability Period, Instantaneous Jump, Instantaneous Criticality, Small Reactivity, Negative Reactivity, Reactivity Change with Temperature Change, Fission Products Poisoning, Fuel Depletion, Properties of Reactors during its Age, Determining Reactor Core Age. This course is taught in Fourth Year, Second Term
This course is taught in Fourth Year, Second Term
Principles and Methods of Measurement by Radiation, Measurements using Charged Particles, Electromagnetic Rays and Neutrons, Applications of Radioisotopes in Industry, Medicine, Scientific Studies, Radiation Manufacturing, Nuclear Examination, Radiotherapy, Nuclear Medicine Diagnosis, Nuclear Analysis Methods. This course is taught in Fourth Year, Second Term
This course is taught in Fourth Year, Second Term
This course is taught in Fourth Year, Second Term
The Student Performs an Applied Research on: Reactors Design, Reactors Dynamics, Materials Science, Nuclear Measurements, Fusion Energy, Applications of Radioisotopes, Automatic Control, Computer Applications and Numerical Methods in Nuclear Engineering, Heat Transfer in Nuclear Systems, Nuclear Fuel Cycles and Wastes Management. This course is taught in Fourth Year, Second Term
NE111
Introduction to Engineering Materials Science
ME147
HS129
Mathematics-4
Calculus of finite differences, Vector algebra, Scalar and cross product. Identifies, Application. Line and planes in space, Spherical and cylindrical coordinate systems, Quadratic surfaces. Line, Surface and volume integral, green’s and stock’s and divergence theorems.
NE112
NE131
NE122
HSx41
NE211
NE251
ME246
EEx73
HS230
MP x16
NE241
NE221
ME232
NE242
HSx61
MP317
NE351
EE331
NE3E1
NE311
HS345
NE312
NE331
NE341
NE352
NE3E2
HSx12
NE431
NE432
NE433
NE434
NE4E3
HSx27
NE401
NE435
NE436
EE450
NE441
NE4E4
HS464
NE402
UNDERGRADUATE COURSE DISTRIBUTION
