Total Cr. Hrs: 160

Level: 2 / Semester: 3

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 UGE 01 English (1) 2 2 0 0 Nil
2 EBS 201 Engineering Mathematics (3) 3 2 2 1 EBS 102
3 EME 111 Mechanical Drawing 2 1 0 2 EBS 141
4 EME 112 Mechanics of Materials 3 2 1 2 EBS 111
5 EME 231 Thermodynamics (1) 3 2 2 1 EBS 121
6 EME 182 Engineering Materials 3 2 2 1 EME 081
Total 16

Level: 3 / Semester: 5

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EBS 207 Numerical Analysis 3 2 2 1 EBS 201
2 EME 214 Mechanical Design I 3 2 2 1 EME 112
3 EME 215 Mechanics of Machinery 3 2 1 2 EBS 112
4 EME 251 Fluid Mechanics (1) 3 2 2 1 EBS 121
5 UGE 03 English for special purpose 2 2 0 0 UGE 02
6 HUE 113 Technical Reports Writing 2 1 0 2 UGE 01
Total 16

Level: 3 / Semester: 6

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 Stat. Elective in Statistics 3
2 EME 217 Computer Applications in Mechanical Engineering 3 2 1 2 CPE 012
3 EME 216 Automatic Control 3 2 2 1 EBS 201
4 EME 232 Heat Transfer (1) 3 2 2 1 EME 231
5 HUE — HUE Elective 2 2 0 0 Nil
6 HUE — HUE Elective 2 2 0 0 Nil
Total 16

Level: 4 / Semester: 7

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EME 317 Mechanical Vibrations 3 2 2 1 EME 215
2 EBS 304 Finite Element Method 3 2 2 1 EBS 302
3 U — University Elective Course 2 2 0 0 Nil
4 EME 341 Engineering Management 2 2 1 0 Nil
5 EME 333 Sustainability: Environmental, Green Eng. Systems 3 3 1 0 Nil
6 EME 353 Fluid Mechanics (2) 3 2 2 1 EME 251
Total 16

Level: 4 / Semester: 8

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 ELE 369 Electrical Power for Mech. Engineers 3 2 2 0 ELE 208
2 EME 272 Introduction to Refrigeration 3 2 2 1 EME 231
3 EME 334 Thermodynamics (2) 3 2 2 1 EME 231
4 EME 373 Mechanical Measurements and Sensors 3 2 2 2 EBS 208
5 EME 318 Mechanical Design (2) 3 2 2 1 EME 214
6 UCS 02 Communication Skills (2) 1 1 0 0 UCS 01
Total 16

Level: 5 / Semester: 9

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EME — Elective Course 3
2 EME 434 Internal Combustion Engines 3 2 2 1 EME 272
3 EME 271 Introduction to Mechatronics and Robotics 3 2 1 2 EME 215
4 EME 436 Heat Transfer (2) 3 2 2 0 EME 232
5 EME 490 Graduation Project (1) 4 3 0 3 Department Approval
Total 16

Level: 5 / Semester: 10

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EME — Elective Course 3
2 EME — Elective Course 3
3 EME — Elective Course 3
4 EME — Elective Course 3
5 EME 491 Graduation Project (2) 4 3 0 3 EME 490
Total 16

Engineering Mechanics (1)

The force system, vector analysis, equilibrium of force systems for particles versus rigid bodies. Moments and couples, analysis of structures such as plane trusses and frames, distributed force systems, centroid and composite bodies, moments of inertia. Friction.

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Engineering Physics (1)

Units, and Dimensions; Properties and classification of matter; Stress, strain, elastic modulus and Hooke's law; Vibrations and wave Motion, sound waves and introductory acoustics; Conservation of Energy and basics of Thermodynamics; Heat Transfer by conduction, convection and radiation; Fluid Statics: pressure variation in fluid at rest and buoyancy; Fluids in motion: viscosity, shear and normal stresses, frictionless flow. Emphasis on relevant applications in engineering.

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Engineering Drawing and Descriptive Geometry

Introduction, types of lines and lettering, drawing equipment and use of instruments, geometric constructions, the theory of projection, multi view representation, and deduction of the third view. Descriptive Geometry: Introduction, Mongean Projection: Representation of points, lines, planes. Representation of line intersection of two planes, Representation of point of intersection of a line and a plane, auxiliary planes, Intersection of curved surfaces.

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Engineering Mathematics (2)

Fundamental concepts and techniques of differential and integral calculus of functions in several variables. Partial differentiation, the chain rule, extrema of multivariable functions. Vectors in two and three dimensions, dot and cross products of vectors, the gradient and directional derivative. Double integration in rectangular and polar coordinates with emphasis on engineering applications of multiple integrals.

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Engineering Mechanics (2)

kinematics of particles: curvilinear motion and relative motion. Kinematics of rigid bodies in plane motion: relative velocity and acceleration and rotating axes. Kinetics of particles: Newton's law, work and energy, impulse and momentum and impact. Kinetics of rigid bodies in plane motion: translation, fixed axis rotation, general motion, work and energy and impulse and momentum.

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Engineering Physics (2)

Fundamentals of electrostatics, magnetism and electromagnetism. Electric dc and ac circuits. Electromagnetic waves, perception of color, Light sources, Light in various mediums and Illumination. Light propagation and interaction with obstacles (lighting of buildings). Geometrical optics and optical fibers. Interference, diffraction and polarization with electromagnetic waves, X-ray diffraction. Production, transport and distribution of electric energy. Emphasis on relevant applications in engineering.

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Introduction to Production Technology

State-of-the-art that accompanied the current industrial revolutions and popular industries' activities. General classification of common engineering materials. Types, and nature of conventional, nonconventional manufacturing. Advanced processes and their common machinery and tooling. Basic measurement techniques and quality. Fundamentals of cost analysis. Practical workshop training.

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English (1)

The course covers the following main components; listening and speaking, reading, writing, grammatical accuracy and study skills. Upon the completion of the course student should be able to demonstrate capability to achieve the following; select and use relevant information to introduce self and others, use clear, logical and fairly accurate grammatical language in everyday situations arising at college during lectures, interpret information presented in charts, graphs and tables, demonstrate ability to understand form and functions of headings and sub-headings, demonstrate ability to write a brief summary of main points, organize notes into headings and sub-headings, demonstrate control of the 5 basic tenses: simple present, past, future, present and past progressive and form of basic pronouns and read and interpret graphs, tables and charts

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English (2)

The course elaborates on the following main components; listening and speaking, reading, writing, grammatical accuracy and study skills. Upon the completion of the course student should be able to demonstrate the capability to achieve the following: identify and explain main points of lecture to others, identify specific detail and complete information on a chart /graph/diagram, report subject and main ideas heard in a talk /lecture, guess meaning of words from context using linguistic and content knowledge, write sections of a research report following a given model: introduction, process, findings, conclusions and recommendations, recognize and use different forms of nouns and make use of information in reference books e.g. encyclopedias, atlases, etc.

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Engineering Mathematics (3)

Fourier series of periodic functions. Ordinary differential equations of first order ordinary differential separable, homogeneous, linear and Bernoulli types. Exact first order ODE. Solution of homogenous and nonhomogeneous second order ordinary differential equations using indeterminate coefficients and variation of parameters. The Laplace transform and its application to solution of ordinary differential equations. Functions of several variables, partial differentiation and applications. Calculus of functions of several variables. Introduction to Vectors and vectors analysis.

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Linear Algebra and Complex Analysis

Determinants and matrices, algebra of matrices, elementary row operations, the rank of a matrix, inverse of a matrix, solution of systems of linear equations, Eigen values and Eigen vectors, orthogonal matrices, diagonalization, and linear transformation. Complex numbers and their representations, algebra of complex numbers. Analytic functions and their derivatives, the Cauchy-Riemann equations, transcendental functions of complex variables. Integration of functions of complex variables, related theorems, and contour integration. Conformal mapping.

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Numerical Analysis

Numerical solutions of nonlinear equations in one variable using iterative methods, the bisections, fixed point and Newton-Rapson methods. Interpolation techniques, interpolation using polynomials and piecewise polynomials. Numerical integration and Numerical differentiation. Numerical linear algebra for solving systems of equations. Numerical solution of differential equations. Students are required to use the MATLAB software to solve given relevant engineering problems.

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Technical Reports Writing

Identifying the different stages of technical reports writing (data collection, draft, revision, editing), determining the target recipients, organization of different types of technical communication, executive reports, technical proposals, detailed analytical reports, development of resume, motivation and application letters, , referencing styles and how to cite sources, contribution to website, media announcements and relevant posts, structure of technical memos, letters and emails, production of relevant visualizations as supplementary items for texts and reports, delivering technical presentations.

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Mechanical Drawing

Introduction and principals of Drawing; Sectional Drawing; Mechanical components: Joints & Screwed Fasteners, Nut Locking Devices, Keys, shafts, Limits, Rivets and Riveted Joints, Welding Joints; Surface Roughness; Assembly Drawing, Production Drawing; Computer Aided Drawing. (CAD)

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Mechanics of Materials

Types and properties of materials, testing of materials (tension, compression, shear, bending, torsion, hardness, impact, creep, fatigue), principal stresses, thermal stresses, stress concentration, deflection and stiffness of mechanical members, statically indeterminate members, CDIO.

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Thermodynamics (1)

Thermodynamics concepts and definitions; working substance, perfect gas laws. Properties of pure substance, forms of energy, first law of thermodynamics for closed and open systems and their applications (Boilers, turbines, gas compressor etc.); reversible and irreversible processes, second law of thermodynamics and its applications, entropy; Carnot principles and other common power cycles.

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Engineering Materials

Part A- Principals and Introduction to Engineering Materials: Historical development of materials, Classification of materials, etc.; Atomic Structure and Crystal Structure, Mechanical and Physical Properties of Materials, Introduction to Ceramics, Polymers, and Composite materials, Introduction to corrosion and degradation of materials, Introduction to Nano materials and their applications. Part B- Features and Factors affecting materials selection: Component shape, Dimensional tolerance, Material properties, Fabrication requirements, service requirements, cost, Availability of the materials; Procedures for material selection: Design, Material Selection, Processes selection, Production, Evaluation, possible redesign or modification.

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Partial Differential Equations

First order and second order partial differential equations (PDEs). Classification of PDEs, canonical forms for parabolic, hyperbolic and elliptic types PDEs, well-posed problem, and superposition principle. Brief review of the Fourier analysis, method of separation of variables, solution of the heat, wave, and Laplace PDE's, with emphasis on applications related to heat diffusion, vibration, and electromagnetism.

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Computer-Aided Mechanical Drawing

Projection and assembly of mechanical elements, fits and tolerances, 2D& 3D assembly mechanical drawings using CAD (AutoCAD and Solid work.)

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Fundamentals of Electrical Engineering

DC circuits. Series and parallel networks. Ohm's law and Kirchhoff's law. Nodal and mesh analysis. Source transformation and superposition theory. Thevenin's and Norton's theorems. Maximum power transfer. Natural and step response of RL, RC, and RLC circuits. Fundamentals of AC circuits and sinusoidal sources. Phasors and impedances. Active, reactive and apparent AC power.

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Manufacturing Processes

Fundamentals and mechanics of different metal removal Processes: Turning, Milling, Drilling, and Grinding. Basics and equipment of casting and foundry processes: Pattern design and Making, Casting structure, Sand properties, and Melting and Solidification. Principles of Gas and Arc welding. Basics of metal forming processes: Forging, Bending, Drawing, Rolling, and Extrusion. Processing of plastics and injection molding.

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Mechanical Design I

Design of Keys, pens and splines, Threaded Fasteners, Power Screws, Riveted, welded and Adhesive Joints.

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Mechanics of Machinery

Introduction to Kinematics and Kinetics & Mechanisms and Machines, Kinematics Fundamentals, Degrees of Freedom, types of Motion, Links, Joints, and Kinematics Chains, Inversion, Graphical Linkage Synthesis, Position Analysis, Velocity Analysis, Acceleration Analysis, Acceleration Analysis, Cam Design, Gear Trains, Dynamic Force Analysis, Balancing, CDIO.

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Fluid Mechanics (1)

Fluid properties, basic governing laws, Eulerian and Lagrangian descriptions; Fluid Statics: pressure measurements (manometers), hydrostatic pressure force on surfaces, buoyancy; Introduction to Fluid Dynamics: application of basic laws (conservation of mass and linear and angular momentum) to finite control volume; Basic flow kinematics, path-line and streamline; Equations of continuity, Euler and Bernoulli equations, Euler turbine equation ; Static, dynamic and total pressure; Flow measurements.

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English for special purpose

This course concentrates on specific English language skills related to the engineering discipline with emphasis on listening and speaking, reading, writing, grammatical accuracy and study skills. Upon the completion of the course student should be able to demonstrate the capability to achieve the following: follow with minimal difficulty academic lectures and talks, read and understand texts including letters related to their engineering specialty, obtain information, ideas and opinions from different sources related to their field of study, write connected texts on subjects within their field of study and communicate with reasonable accuracy showing a substantial degree of grammatical control.

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