Methods of Integration, some special techniques, successive reduction method, improper integrals, mean value theorem special function: the error, gamma and beta functions of several variables, limits and continuity, partial derivatives, chain rule directional derivatives, Taylor expansions of functions of several variables, extreme, differentiation under integral sign. This course is taught in First Year, First term
Central Force Motion: Polar Coordinates – Properties of central Force Motion – Equation of Motion – Applications to Space Mechanics – Nonconservative Systems: Energy dissipation – Real System – Kinetics of System of Particles: Equations of Motion – Motion of the Mass Center of System of Particles – Systems Gaining or Losing Mass: Motion of Rockets – Motion of Chains and Cables- Plane Kinematics of Rigid Bodies: Translational, Rotation and General plane motion- Instantaneous center of rotation in plane motion – Rolling without sliding – Gears – Mechanisms – Kinetics of Plane Motion of Rigid Bodies : Angular Momentum – Kinetic Energy – Equations of Motion – Moment of Inertia – Applications- Initial Motion –Impulse and Momentum of Plane motion of Rigid Bodies : Principle of Impulse and Momentum for a rigid Body and for a System of Rigid Bodies – Collision of Rigid Bodies –Gyroscopic Motion: Gyroscopes-Gyroscopic Couple –Application- Rotation of a Three-Dimensional Body about a Fixed Axis : Dynamic Reaction –Balancing- Mechanical Vibrations: Free Vibrations – Damped Free Vibrations – Forced Vibrations. This course is taught in First Year, First term
Concepts of stress and strain – Stress strain relations – Hook’s law – Ductility – Malleability – Thermal stresses and strains – Hertz contact stresses – Hardness – Impact properties of materials – Creep and temperature properties – Axial loading – Torsion – Bending – Transverse loading – Principal stresses – Deflection and stiffness of mechanical members. This course is taught in First Year, First term
Units – Energy conservation – Properties of a system – Forms of energy – State and equilibrium – Process and cycles – Heat and work – The first law of thermodynamics – Measurements of Temperature – Kinematics of fluids – Continuity equation – Energy equation – Measurements of pressure, velocity and fluid flow. This course is taught in First Year, First term
Projection and assembly of mechanical elements – Machining symbols – Fits and tolerances – Mechanical parts – Fasteners. 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
Joints – Mechanisms – Degrees of freedom – Analysis of some applied mechanisms – Graphical and analytical analyses of displacement, velocity and acceleration – Gear geometry – Gear trains. This course is taught in First Year, Second Term
Shear forces and bending moments for beams ,frames. Internal forces in trusses . Tests and measurements of mechanical properties of materials (simple tensile test, compression test, shear test, torsion test, bending test). Impact and hardness tests . Rotating beam tests. Measurement of strains. This course is taught in First Year, Second Term
This course is taught in First Year, Second Term
2D and 3D detailed and assembly mechanical drawings using AutoCAD and similar computer programs. This course is taught in First Year, Second Term
This course is taught in First Year, Second Term
Ordinary and Partial differential equation: Solution of ordinary differential equations with variable Coefficients, system of linear differential equations, heat wave and Laplace equation in two and three dimensions. Separation of variable technique, some boundary value problems and applications. Numerical solutions of differential equation. This course is taught in Second Year, First term
Synthesis of cam profiles for specified motion – Specified cam contours – Force analysis of mechanisms – Flywheels – Balancing of rotating and reciprocating masses – Introduction to robot systems – Direct and inverse robot kinematics. This course is taught in Second Year, First term
Energy equation – Second law of thermodynamics – Entropy – Perfect gases – Air standard cycles – Compressors – Psychrometry of gas mixtures – steam generation and its processes – Carnot and Rankine cycles – Availability and irreversibility – Real 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
Use of numerical methods and programming for solving applied problems in the various branches of mechanical engineering. This course is taught in Second Year, Second Term
Basics of mechanical design – Design considerations – Factor of safety – Theories of failure – Design for static strength – Design for fatigue strength – Deflection and rigidity considerations – Statically indeterminate members – Curved members – Column design – Pressure vessels. This course is taught in Second Year, Second Term
Forces on immersed surfaces – Buoyancy – Kinematics of three-dimensional fluid motions – Fluid masses moving with acceleration – Vortex motion – Hydrodynamics – Momentum equation – Euler’s and Bernoulli’s equations – Fluid flow in pipelines – PI-Theorem. This course is taught in Second Year, Second Term
Engine types – Combustion systems, fuel systems, and ignition systems in reciprocating and rotary engines – Fuel properties and ignition quality – Types of combustion chambers in reciprocating and rotary engines – Combustion thermodynamics – Chemical kinetics – Flame theories – Flammability limits. This course is taught in Second Year, Second Term
This course is taught in Second Year, Second Term
This course is taught in Second Year, Second Term
Steam cycles with reheat and regeneration – Steam flow through nozzles – Impulse and reaction turbines – Performance and control. This course is taught in Third Year, First term
Unsteady flow through pipes – Networks of pipes – Dynamics of compressible and incompressible flow – Continuity equation – Navier-Stokes equations – Boundary layers – Fluid film lubrication – Turbulent flow – Two-phase flow. This course is taught in Third Year, First term
Design of shafts and couplings – Threaded joints – Riveted, welded and adhesive joints – Power screws – Mechanical springs – Clutches and brakes – Wire ropes. This course is taught in Third Year, First term
Single and multiple degrees of freedom systems – Free and forced vibrations – Machine Insulation – Critical speeds – Dynamic absorbers – Vibration measurements – Torsional vibrations – Continuous systems. This course is taught in Third Year, First term
Advanced injection systems in both spark-ignited and compression-ignited engines – Pressure and flow rate calculations in injection systems – Fuel-air cycles and combustion charts – Chemical equilibrium and dissociation – Emission control – Energy balance of engines – Testing and performance maps. This course is taught in Third Year, First term
Steady state conduction – Steady state conduction with heat generation – Fins – Unsteady state conduction – Forced convection – Free convection – Tube banks – Boiling and condensation – Heat Exchangers – Radiation properties of surfaces – Radiation shape factors – Radiation exchange in enclosures. This course is taught in Third Year, Second Term
The concept of control volume – Compressible flow – Effects of friction and heat transfer on compressible flow – Shock waves and expansion waves – Aircraft engines – Wind tunnels. This course is taught in Third Year, Second Term
Gear drives – Belt drives – Sliding (journal) bearings – Anti-friction (rolling element) bearings. This course is taught in Third Year, Second Term
System modeling – Block diagrams – Open and closed loops – Time response to standard inputs – Stability analysis – Error analysis – Frequency response – Polar plot – Bode plot – Root locus – Basic control actions – Control tuning – Compensation techniques – Logic circuits. This course is taught in Third Year, Second Term
This course is taught in Third Year, Second Term
Energy resources – Power plants: (Diesel – Gas –Steam – Nuclear – Combined) – Steam power plant: (Steam generators – Steam turbines – Condensers – Evaporators – Chimneys – Fans – Cooling towers) – Variables load problems – Economic and controls. This course is taught in Fourth Year, First term
Pumps – Turbines – Hydropower stations – Hydraulic circuits. This course is taught in Fourth Year, First term
Refrigeration methods: (Air refrigeration – Steam jet – Absorption – Thermoelectric) – Refrigeration equipment: (Evaporators – Condensers – Cooling towers – Expansion devices – Compressors) – Refrigeration (cold) stores – Insulation – Psychometric processes and cycles – Cooling and heating loads – Air conditioning equipment (units) – Duct design. 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
Students, under the supervision of staff members, shall study and analyze an engineering topic or a problem. They shall design the necessary equipment. The student selects the project in one of the 4 branches in the department. This course is taught in Fourth Year, First term
This course is taught in Fourth Year, Second Term
This course is taught in Fourth Year, Second Term
Experiments in the fields of Fluid engineering – Thermal engineering – Gas dynamics – Combustion – Mechanical design – Mechanical vibrations – Automatic control. This course is taught in Fourth Year, Second Term
This course is taught in Fourth Year, Second Term
Energy World Resources – Elements of the environment – Sources of pollutants – Air and water pollution – Noise – Nuclear pollution – Permissible limits of pollutants- Standards – Treatment and waste management – Egyptian Law No. 4/94 – Environmental management of energy generation projects. This course is taught in Fourth Year, Second Term
The student continue his project This course is taught in Fourth Year, Second Term
Mathematics-3
Sequences, series, convergence and convergence tests, uniform convergence. Fourier series expansions of general periodic functions, expansions of even and odd functions, convergence and remarks.
MP 123
ME 141
ME 111
ME 142
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.
ME 143
CE 166
PE 128
ME 144
HS x52
MP 215
Complex analysis: Function of complex variables, differentiation and integration, analytic functions, cache theorem and cache formula. Contour integration, power, series expansion, conformal mapping vector analysis: Scalar and vector fields, vector, operator, application to geometry, line, surface and volume integral, divergence theorem of gauss stock’s and Green theorem. Curvilinear and orthogonal coordinates.
ME 241
ME 211
EE 272
PE 228
Technical Report Writing
ME 242
ME 243
ME 231
ME 221
EE 253
HS x27
ME 311
ME 331
ME 341
ME 342
ME 321
ME 312
ME 322
ME 343
ME 344
HS 362
ME 411
ME 431
ME 412
ME 4E1
HS x33
ME 401
ME 4E2
ME 4E3
ME 433
HS 463
ME 417
ME 402
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