Production and Industrial Process Engineering (PPE)
- 2022
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4001 | Arabic Language | 3 | This course covers a various number of linguistic issues in Arabic language. It aims to provide the student with a high level of skills and practices that would contribute to promote his language abilities either spoken or written. |
| 4002 | Islamic Culture | 3 | This course is designed to emphasize a group of principles and thoughts that affect human attitudes to life from an Islamic point of view. It stresses the direct relationship between man and Allah, and aims at improving this life by liberating the human m |
| 4320 | Modern History of Palestine | 3 | This course is designed to acquaint students with the process of writing, and the mechanisms of proofreading and revision so that the focus is on the mechanics of writing and development, such as cause and effect and comparison and classification and deal |
| 8200 | Effective English Language Use | 3 | This course is designed to acquaint students with the process of writing, and the mechanisms of proofreading and revision so that the focus is on the mechanics of writing and development, such as cause and effect and comparison and classification and deal |
| 8239 | Skills for Life | 2 | he transition from high school to university can be a challenge for many students. Learning expectations are different. The student must play a more effective role in the learning process and assume greater responsibility, and he must adapt to the new learning culture very quickly. This course is designed to assist the student in the transition process more easily and to increase and develop important life skills related to the student's personal behaviors, so that he is better prepared for his academic and professional career. This course focuses on self-awareness, personal growth, and building positive relationships with others. Through these skills, along with the desire and dedication to learn, and the desire to help others, a student can be successful at the university, able to make significant contributions to his family, employers, societies and the world at large |
| 8993 | Computer And Programming For Engineering College | 3 | This course is an introduction to computers and programming - it includes a quick review of the physical and software entity of a computer. The course includes definitions of algorithms, programming logic, and flowcharts. The course also introduces advanc |
| 8994 | Computer And Programming Lab. For Engineering College | 1 | The laboratory includes practical applications on: Introducing computer parts and its physical components, computer and internet usage skills, using Flowcharts algorithm design programs and process flow charts, data types and variable definitions, input a |
| 8996 | English A2 | 0 | This course is designed to help minor university students with the beginner A1 and A2 levels improve their English Language proficiency in the four skills (reading, writing, listening and speaking) to reach the pre-intermediate level (B1) as benchmarked by the Common European Framework of Reference (CEFR). It places the students and their needs at the center of the learning process by ensuring that they encounter the most relevant and useful language at the right point in their learning. The English A2 course is rich in practical activities as it provides students with a wide variety of listening, speaking, and writing tasks that motivate them, address their language needs, develop their skills, and help them to become confident users of the English language. It also integrates students with using technology to serve their educational purposes, by means of Google Classroom and Cambridge One Learning Management System to watch purposeful educational videos and carry out online tasks and homework to increase their exposure to the language. |
| 8997 | English B1 | 3 | This course is a continuation to course English A2. It is designed to help minor university students with the beginner A2 level improve their English Language proficiency in the four skills (reading, writing, listening and speaking) to reach the pre-intermediate level (B1) as benchmarked by the Common European Framework of Reference (CEFR). It places the students and their needs at the center of the learning process by ensuring that they encounter the most relevant and useful language at the right point in their learning. The English B1 course is rich in practical activities as it provides students with a wide variety of listening, speaking, and writing tasks that motivate them, address their language needs, develop their skills, and help them become confident users of the English language. It also integrates students with using technology to serve their educational purposes, by means of Google classroom and Cambridge One Learning Management System to watch purposeful educational videos and carry out online tasks and homework to increase their exposure to the language. |
| 8999 | Entrepreneurship | 2 | Its course is designed to help students consider becoming job innovators rather than just job seekers. It is an introduction to the practice of entrepreneurship and an opportunity for participants to consider their preparation for an entrepreneurial career and more advanced training in entrepreneurship. It covers the nature of entrepreneurship, different types of career opportunities, identifying local entrepreneurs, assessing entrepreneurial trends and identifying potential challenges and risks that entrepreneurs may face. |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4308 | Hebrew Language | 3 | Designed to study the basic Hebrew language skills. Students will learn listening, speaking, reading, and writing skills in Hebrew. The relation between Hebrew and other languages will also be high lighted. |
| 4321 | Development in the Arabic World | 3 | This course covers the following topics: the economy, social status and civil in the Arab world, the analysis of the situation of the Arab at the international level, the principles of development, the characteristics of Arab integration, the fundamental |
| 4322 | Contemporary Problems | 3 | This course discusses the fundamental problems humanity face. These problems affect people as individuals or groups in terms of the social economic, political or health aspects, and which, in turn, affect their happiness. |
| 4323 | French Language | 3 | Designed to study the language and culture of French speakers. Students will develop rudimentary listening, speaking, reading and writing skills in French, and will study cultural, geographical, and historical aspects of French and other French – speaking |
| 4325 | Spanish Language | 3 | Designed to study the language and culture of Spanish speakers. Students will develop rudimentary listening, speaking, reading and writing skills in Spanish, and will study cultural, geographical, and historical aspects of Spanish and other Spanish – spea |
| 4326 | German Language | 3 | Designed to study the language and culture of German speakers, Students will develop rudimentary listening, speaking, reading and writing skills in German, and will study cultural, geographical, and historical aspects of German and other German – speaking |
| 4413 | Law in Society Service | 3 | The course covers four units: The opening unit examines central philosophical debates in social legal in order to lay a groundwork for subsequent material. The second unit explores several distinct social-psychological models of rule-following and rule-b |
| 4622 | Democracy, Human Rights, & Human International Law | 3 | The course stresses the notion of democracy, its history with new applied samples in view of studying the Palestinian situation. It also emphasizes the notion of human rights and its history, in addition to the tools and mechanisms adapted to protect thes |
| 4626 | The History of Science in Arab & Islam | 3 | This course discusses the issue of science in Arab World before the spreading of Islam. Then it discusses the impact of Islam on science in general. The course contains several subjects, such as the science of Fiqh (Islamic law) and legislation Hadith (Pr |
| 5385 | Advanced English Language | 3 | This course aims to prepare students for academic study by improving their level in the field of reading speed and accuracy. Pieces containing long and complex sentences are also selected to enable students to enrich their vocabulary by knowing the meaning of the word from the context. Students are also trained to notice the apparent and implied meaning of the context. This also trains students to separate information from the text and points of view in it. |
| 5440 | Home Garden | 3 | This course includes the definition of home garden and its benefits, problems and objectives, design and choice of location in addition to its role in achieving food security for developing communities and building a strong family agricultural economy. |
| 5456 | Turkish Language | 3 | Study the basics and principles of the Turkish language, where the four language skills include reading, writing, speaking, and listening. To the level in which he is able to write correct sentences, express himself in simple words, and understand reading and listening at the level of a paragraph about things related to and surrounding him. |
| 5975 | Integrity Transparency and anti-corruption | 3 | The course deals with defining the concepts of integrity, transparency, and corruption, locally and globally, while showing the forms of corruption practice within the Palestinian society and its negative effects, as well as the causes that lead to it, whether political, social, economic, partisan, historical, or external and other factors. In addition to identifying ways to confront it in order to reach good governance, whether at the level of official governmental or private institutions. |
| 8237 | Psychology | 3 | The course deals with the principles of psychology, general psychological laws of human behavior, and the goals of psychology in terms of knowing the factors and variables that govern behavior, understanding it, predicting it and judging it by addressing the general topics of psychology |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4004 | Calculus 1 | 3 | Functions, Limits and Continuity, Definition of Derivative, Differentiation Rules, Applications of the Derivative, Definite and Indefinite Integrals, Fundamental Theorem of Calculus, Applications of Definite Integral. |
| 4005 | Calculus 2 | 3 | The Calculus of Transcendental Functions, Techniques of Integrations, Sequences, Infinite Series, Power Series, Conic Sections, Polar Coordinates. |
| 4006 | Physics 1 | 3 | Physical quantities, Units, Vectors and Scalars, Motion in one dimension, Motion in two dimensions, Newton’s laws of motion and dynamics, Work and Energy, Conservation of Energy, Conservation of linear momentum and collision, Center of mass and moment of |
| 4007 | Physics Lab 1 | 1 | The course contains 12 experiments in Mechanics thermodynamics and Motion, which aims to give the students, the basis concepts in the previous topics given in the physics course. |
| 4008 | Chemistry 1 | 3 | Matter, its Properties and Measurement, Development of the Atomic Theory, Stoichiometry; Elements and Compounds, Chemical Reactions, Gases, Thermo chemistry, Electrons in Atoms, Atomic Properties and Periodic Table |
| 4009 | Chemistry Lab1 | 1 | Introduction to chemical lab and use of chemical balances, Boiling point elevation, Density determination, Melting point, Stoichiometry of two reactions, Water of Hydration, Molecular weight of a volatile liquid, Identification of six solutions, Volumetri |
| 4015 | Methods of Scientific Research | 2 | Science and its goals, scientific thinking, concepts and fields of scientific research, human knowledge, the library and its role in research and knowledge, the methods of scientific research (the historical method, method, descriptive, procedural style, |
| 4068 | Physics 2 | 3 | The principles of electricity and magnetism are given such as Coulombs law, Gauss's law, and their applications Electric potential, capacitance and dielectrics, current and resistance and applications on ohm's law, kirchh off's rules and applications on networks, RC circuits, magnetic force and magnetic flux density, sources of magnetic field, Biot-Savart law and Amper's law and their applications, and faraday's law and Lenz law and their applications, and the inductance. |
| 4069 | Physics Lab 2 | 1 | Electric charges and fields, Gauss’s law, Electric potential, Capacitors, Current resistance and Circuits, Magnetic fields, Ampere’s law, Faraday’s law, and Finally Inductance. |
| 5060 | Engineering Drawing | 2 | Drawing technique, the graphic language, instruments and their use, materials of drawing, drawing standards, types of lines and lettering. Geometrical constructions: dividing straight lines into equal parts and constructing perpendiculars, constructing an |
| 5061 | Engineering Workshop | 2 | This course aims at training students on using a various manual Engineering skills as sawing, filling, drilling, riveting cutting and bending….etc. which are essential for all kinds of industrialization it is necessary for everyone who works in industry |
| 5555 | Engineering Ethics | 2 | This course will help students to focus on how ethics and values influence their skills as supervisors. Students will learn what ethics and values are, and how ethics and values influence the outcomes of the decisions they make on the job. Student will le |
| 8130 | Eng. Economics & | 2 | Introduction to management, importance of management, characteristics of management. Management process. Management of Human Resources. Strategic Planning, SWOT Analysis & balanced Scorecard. Project management, networks, critical path. Inventory system |
| 8998 | English B2 | 3 | This course aims to help minor university students with their general English by improving their Language proficiency from upper intermediate (B2) to advanced (C1) in the four skills (listening, speaking, reading, and writing). The textbook, Empower B2, is based on a combination of content from "Cambridge University Press" and a validated assessment from "Cambridge Assessment English" to enable students to make consistent and measurable progress with reference to the Common European Framework of Reference (CEFR). The course is fundamentally learner-centered, as it has clear orientation and goals that meet the students' needs. It seeks to sustain students' motivation through interactive visuals by personalizing their language practice experience and engaging them into interesting content with a variety of tasks. |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4024 | Applied Mechanics ( Statics ) | 3 | Introduction to Statics, Force Systems, Equilibrium of particles and rigid bodies, Analysis of Trusses, frames and Machines, Distributed Forces, Centroids and center of gravity, Moments of inertia, Shear force and bending moment diagrams for loaded beams. |
| 4025 | Applied Mechanics ( Dyn.) | 3 | Kinematics of particles and Kinematics of rigid bodies (Rectilinear Motion, Plane Curvilinear Motion, Relative and Absolute Motion). Kinetics of particles (Force – mass – acceleration method – work – energy method – Impulse – Momentum method). Kinematics of rigid bodies. |
| 4027 | Strength of Materials | 3 | Application of section method, Stress Components. Strain Components, stress–strain diagrams, Hook’s low. Poisson’s ratio, deformations of an axially loaded member, Thermal stress. Torsion, diagrams of internal forces, Binding streses in Beams, shearing. Stresses in beams. Compound Stress. Deflection of Beams, Buckling of columns. |
| 4030 | Manufacturing Processes | 3 | Basic Manufacturing processes. Nature and properties of engineering materials. Production of metals. Foundry processes and special casting processes. Welding. Plastic. Hot and cold forming. Powder metallurgy and special forming processes. Material removal technology. Special material removal processes. Heat treatment of metals. Surface cleaning and finishing processes. |
| 4031 | Fluid Mechanics | 3 | General concept of fluid and non-fluid substances, fluid properties, Newtonian and non-Newtonian fluids, properties of the atmospheric fluid, standard conditions, fluid statics, hydrostatic correlations and their applications, fluid kinematics, fluid flow shapes and their relations to velocity and acceleration, Reynolds’ experiment of fluid flow, Laminar and Turbulent fluid flow, Reynolds Number, Continuity equation, fluid dynamics, Bernolli equation, energy equation, momentum equation, flow through pipes, friction in pipes, Darcy equation, pressure losses in pipes and fittings, criteria of power transmission in pipes, dimensional analysis. |
| 4043 | Differential Equations 1 | 3 | First Order Differential Equations and it's applications. The Existence and Uniqueness Theorem, Differential Equations of Higher Order. And it's applications, Laplace Transform, solving differential Equations By Laplace Transform, Volt era integral Equation Dirac Delta Function power series solution of Differential Equations. |
| 4048 | Machine Design 1 | 3 | The mechanical design process. Materials in mechanical design. Stress tensor and stress transformation. Stresses in pressurized tubes and cylinders. Static failure theories for ductile and brittle materials: Maximum normal stress theory, Maximum-shear-stress theory, Distortion-energy theory, Coulomb-Mohr theory. Endurance limits and fatigue failure theories: Goodman criteria, Gerber criteria, ASME-elliptic criteria. Elements design: power screws, bolted and riveted connections, welded joints, shafts. Design through Computer software (MITCalc). |
| 4331 | Thermo Lab. | 1 | Determination of saturation pressures and temperatures of fluids. Single-stage reciprocating compressor. Energy balance, work and efficiencies of: steam power plant, reciprocating air compressor, and refrigeration cycle.Heat conduction experiments including: linear conduction through a simple wall, composite walls, radial heat flux through spheres and cylinders. Free and forced convection. Radiation heat transfer:. Parallel and counter flow heat exchanger; logarethmic mean temperature LMTD . |
| 4341 | Measurement Sys. and Sensors | 3 | Introduction to measurement and instrumentation, instruments performance and terminology, basic concepts of experimentation and sensors classification, analysis of experimental data, static and dynamic performance characteristics of instruments, electrical measurements and sensing devices, displacement and acceleration measurements, pressure measurements, flow measurements, temperature measurements, force and strain measurements, motion and vibration measurements, modern measurement systems (Vision, Touch, Smell, etc), signal conditioning and analysis techniques. Use of laboratory equipments and software (sensors, DAQs, LabView, etc.). |
| 4350 | Mechanics Lab. | 1 | Reactions on beams. Centroid and moment of inertia. Estimating Modulus of Elasticity and Modulus of Rigidity for various materials. Stress-Strain diagram. Torsion in bars. Studying the motion of various mechanisms. Static and dynamic balancing. Simple and compound pendulum. Gears. Governors. |
| 4404 | Fluid Mechnics Lab | 1 | Pressure measurements; pressure gage calibration, center of pressure. Bernoulli’s equations applications. Demonstration of laminar and turbulent flow. Flow measurements, flow through a Venturi, flow rate through an orifice. Measurement of losses in pipe bends and fittings. Measurement of forces produced by a jet of water on various surfacesConstant speed and constant pressure difference experiments for: reciprocating, rotary and centrifugal pumps. Pumps characteristics. Pumps in series. Pumps in parallel. Radial flow turbines (Francis). Axial flow turbines (Kaplan). Pelton’s wheel. |
| 4449 | Math and Simulation for Engineers | 3 | Engineering Mathematics seems to be the most important tool in connection with the modeling and analysis of practical or physical problems in mechanical engineering. It is a very basic course for mechanical engineering students and consists of: Vector functions (graphing, their limits, their derivatives, their integration and their applications), Multi variable functions(graphing, their limits, their derivatives, their integration and their applications), Polar and cylindrical coordinates, Double and triple integration, Vector derivation, Surface integration Gauss and Stokes theorem, Complex variables, Integration of Complex Variables, Fourier Transforms with Applications, Mathematical Modeling of Boundary Value Problems of Partial Differential Equations, Heat equation, Wave and Diffusion Equations. Implementing most of the above topics by simulation using Matlab software. |
| 4454 | Thermal Power and Heat Transfer | 3 | Introduction to thermodynamics heat transfer; concepts of work and heat; first law of thermodynamics; second law of thermodynamics; gas mixtures and properties; conduction: one-dimension, two-dimension, steady-state, and transient heat transfer; convection heat transfer: natural, forced, internal, and external heat transfer heat. Radiation heat transfer; boiling and condensation heat transfer; basics of heat exchanger design. |
| 4455 | Materials Engineering and Testing | 3 | The cours mechanical properties linked to the material structures and related applications;e presents various physical and covers various types of phase diagrams and their sues in engineering processes and applications; presents various thermal processes for phase transformations and manipulating properties; introduces nonmetallic and composite engineering materials such as plastics, ceramics, and polymers with their electrical, thermal, magnetic, and optical properties; automotive materials and specifications; corrosion and degradation behavior; recycling and design for recycling; hands-on experience covers experimental determination of mechanical properties such as hardness, toughness, strength for metallic and nonmetallic materials, and the effect of temperature of these properties. |
| 4457 | Machine Dynamics and Vibrations | 3 | Introduction, classifications of mechanisms, kinematics inversion, mobility, mechanical advantage, review of kinematics of mechanisms, synthesis of mechanisms, force analysis of mechanisms including inertia effect of linkages of reciprocating and rotating machinery (slider crank mechanism, four bar linkage). balancing of machines (for rotating masses and for reciprocating masses), gears and gears train, flywheel design, free vibration of single degree of freedom system, damping ratio, harmonically excited vibrations of single degree of freedom systems, vibration isolation, free vibrations of two degree of freedom systems (natural frequencies and mode shapes), harmonically excited vibrations of two degree of freedom systems, vibration absorbers, applying Lagrange equation to derive the differential equations of multi degree of freedom systems. |
| 4458 | Control Systems | 3 | This course consists of three parts; Part A: Introduction, transfer function, poles, zeros. Block diagram reduction including disturbance inputs. State variables: State space from differential equations, state space from transfer function, transfer function from state space, time response from state space. Performance parameters of closed loop system: time response, damping ratio, natural frequency, percentage overshoot, settling time, rise time, peak time, steady state error. Stability tests of linear system: eigenvalues tests, Routh table. Root locus techniques. Part B: Continuous time classical controllers design: P, PD, PI, lead, lag, and lag-lead via root locus method. Part C: Sampled data, difference equations, z-transform review, Nyquist frequency (sampling theorem), digital controller design using discrete equivalent; hands-on experience covers basic applications in control systems laboratory. |
| 5087 | Linear Algebra & Numerical Methods | 3 | Linear systems and matrices: Gaussian ellipsis, Gauss-Jordan ellipsis, simple row operations, homogeneous systems, matrices: operations on matrices, finding the multiplicative counterpart of the matrix, equivalence of matrices, symmetric matrix, determinants, vector space, subspace, linear independence, vectors Basic, dimension vector space, row and column space of a matrix, linear transformations, zero transformations and transformations using matrices, kernels and range transformations, Expression of linear transformations using matrices, values and eigenvectors (distinguished), transformation to a diagonal matrix, quadratic models, orthogonal and standard matrices. Applications in mechanical and electrical engineering, representation of numbers and errors, determination of the roots of equations,Numerical derivation, numerical integration, systems of linear equations, approximation using spline functions, ordinary differential equations, refinement of scalar data and method of minimizing square errors. |
| 5088 | Electromechanical Workshop | 2 | Manufacturing processes (Electrical arc welding and gas welding). Manufacturing operations (Turning, milling, sawing, shaping, filing, cylindrical and surface grinding). Electrical switches, sensing elements, wiring single phase motors, relays and contactors, timers, counters, temperature control circuits, methods of traditional control. |
| 5089 | Mechanical Drawing Using Computer | 2 | Introduction to Mechanical Drawing, drawing and understanding of the variant types of sections, Conventional representation of materials. Drawing of common machine elements and parts such as screws, nuts, bolts, keys, gears, webs, ribs, shaft coupling, spigot and socket pipe joint, Journal, pivot and collar and foot step bearings. Methods of dimensioning, general rules for sizes and placement of dimensions for holes, centers, curved and tapered features(Fittings and Tolerances). Assembly Drawings: Drawings of assembled views for the mechanical parts. Detailed drawing. Drawing applications using computer softwares Autocad & CATIA |
| 8599 | Math and Simulation for Engineers /LAB | 1 | This Lab.introduces the student to learn the basic and the advanced Matlab operations , coding and simulink methods. Implemnt the numerical methods (using Matlab) in solving differential equations, integration, Laplace, multivariable integrals, single and multivariable vector valued functions applications and fourier transforms. |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4132 | Field Training 1 | 0 | This course aims to train the students in related to the specially community institutions on engineering basic competencies such as safety, technical terminology, aclministrative rules and layouts, drawings and energy analysis and protection. |
| 4133 | Field Training 2 | 0 | This course aims to train the students in related to the especially community institutions on technical competencies related to his area specialty during process function and productivity, and do all analysis studies related to specialty. Preparing the student for the stage of work. |
| 4304 | Introduction to Graduation project | 1 | General concepts and objectives of graduation project. Availability of information and resources. Scientific research. Computers in scientific research. Writing up graduation thesis. Proposed graduation project. Guide lines and preparations. |
| 4305 | Graduation Project | 3 | In this part of the project students must implement and test the design described in the “Introduction to Graduation Project”. |
| 4459 | Introduction to Microcontrollers | 3 | Introduction to digital and microcontroller circuits: logic gates, flip-flops, decoders, multiplexers, counters, shift registers, memories, latches, buffers, basics of microcontroller hardware and software for embedded control applications. Interfacing with input-output devices (sensors and actuators), signal isolation, signal amplification and filtration, A/D and D/A conversion, microcontroller programming using C language, controller realization and implementation using microcontroller: second-order modules, first-order modules, higher-order modules, choice of sampling interval, applications as well as hands-on experiments for analyzing and testing digital and microcontroller circuits |
| 5090 | Analysis of Electrical Circuits | 3 | This course introduces the basic laws and terms. It presents the series circuits (Kirchhoff's Voltage Law, Voltage divider law) and the parallel circuits (Kirchhoff's Current Law, Current Divider Law). It shows the differences between the real and ideal source, and how to transform the voltage source into current source and vice versa. The course applies some analysis methods such as mesh and nodal analysis, Thévenin's theorem and superposition. The course gives an introduction to AC circuits (basic terms, the elements and phasors). |
| 5091 | Applied Electronics | 3 | The course provides an introduction to semiconductor theory (conduction mechanism, P-type and N-type). It explains the concept of the P-N junction. It talks about the diodes and their applications (biasing circuit, rectifiers and clamping circuits). Then the course presents the special purpose diodes such as the zener, the LED and the photodiodes. The course presents the Bipolar Transistor (structure, types, principle of operation, and the configuration). It gives some applications for the transistor such as being a switch. Finally the course provides a short introduction to MOSFET transistor. Op. Amp. |
| 8241 | Electrical Circuits and Electronics Lab. | 1 | Experiments in electrical network analysis that demonstrate the knowledge of the main theorems of dc and ac network, e.g., Ohm's law, Kirchhoff law, Thivenen and first order circuits. In addition, experiments that demonstrate the knowledge of microelectronic devices, e.g., rectifiers, transistors (BJT and FET) op amps, active filters and oscillators. |
| 8850 | 3 | During this course, students will study advanced topics covering such areas as; project and finance management, new product development, and quality systems and measurements, these modules should provide you with a greater depth of knowledge and skill; techniques relating to managing engineering activities; engineer's transition into management; engineering managerial functions; motivation of individual and group behavior; productivity assessment/improvement; managing the quality function and communications. | |
| 8851 | 3 | This course focuses on the fabrication of metal components, highlighting the selection of processing options and parameters based on material properties and part design. Students will also examine other essential metals processing methods including casting, machining, and additive manufacturing. Students will examine processes by employing some of the key equations that control product quality, process rate, and manufacturing energy intensity. Students will also be able to investigate metal production, end-of-life possibilities, and emerging paradigms in eco-sustainable metals processing. | |
| 8852 | 1 | The metalworking lab teaches students the fundamentals of various metals and welding procedures. A study of metal construction and fabrication procedures. Students will learn how to handle and operate embossing tools, soldering guns, propane torch welding, and other metals and equipment in this course. It also covers the basis of the classical lathe and metal cutting processes. The course focuses on building confidence in the use of metalworking tools. | |
| 8853 | 3 | This course is intended to provide students with fundamental knowledge on polymers and plastics, degree of polymerizations, types of polymer and copolymers and their classification, polymer additives, glass transition, melting transition and polymerization methods. Polymer characterization, which includes solubility and swelling, the concept of average molecular weight, the determination of number average, weight average, viscosity average, and Z-average molecular weights and polymer crystallinity. Polymer characterization techniques including IR, XRD, thermal (DSC, DMTA, TGA), and microscopic (optical and electronic) techniques. Preparation and properties commercially important polymers, their preparation methods, properties and applications. | |
| 8854 | 3 | This course is designed to provide the background for an understanding of the wide field of polymer processing, and provide a strong foundation including fundamentals and applications of polymer processing. Topics include: fundamentals of extrusion, die forming, mixing, injection molding, and other common plastics processes such as fiber spinning, blow molding, rotational molding, coating, etc. The students will be introduced to extrusion processes including solid conveying, melting, metering, screw types and design. Die Forming, capillary flow, sheet forming and film casting. Injection molding, injection molding cycle and injection molding machine. | |
| 8855 | 3 | This course introduces basic concepts of chemical and separation steady state processes, and prepares the student to formulate and solve material and energy balances for multi component systems with applications on industrial processes. It also provides the principles of diffusion and convective mass transfer. Types of separation processes and methods including evaporation, solvent extraction, drying and crystallization, and the equilibrium relations between phases. | |
| 8856 | 1 | Students will learn about the plastics manufacturing processes of twin screw extrusion, film extrusion, tube extrusion, and injection molding process monitoring in this laboratory. Experiments are meant to help students grasp the theory of polymer conversion processes through the interaction of process factors and material properties. | |
| 8857 | 3 | This course is designed to provide the fundamental concepts of Computer Aided Design and Manufacture (CAD/CAM) and their underlying mathematical principles. Topics include CAD/CAM architecture, geometric modeling, solid modeling, part programming, CNC fundamentals, data exchange as well as CAD standards. Students will able to incorporate hands-on experience using CAD/CAM software related with drafting, modelling, assembling activities and additive manufacturing. Furthermore, students will utilize the CAD/CAM knowledge to complete a simple as well as complex design/manufacturing project throughout the course. | |
| 8858 | 1 | The first section of CAD/CAM systems is covered in the course, which include modelling of basic machine components and assemblies from part drawings using common CAD software. Using common CAM software, generate CNC turning and milling codes for various operations. Create manual component programming for face milling operations using ISO codes. To provide students with the requisite computer-aided modeling abilities through the use of common CAD software. To introduce students to CNC programming techniques and cutting tool path creation utilizing CNC simulation software and G-Codes and M-codes, as well as generating part programs for basic machine components. | |
| 8859 | 3 | This course focuses on the characteristics of ceramics, as well as the design, manufacture, and applications of ceramic materials such as Fiber-optic devices, microprocessors, solar panels. It also deals with the use of physics, chemistry, and engineering concepts to the creation of various ceramic products used in homes, corporations, factories, and other settings. | |
| 8860 | 1 | The second section of the CAD/CAM lab is intended for CAD/CAM programming on CNC machining using multi-axis contouring utilizing wireframe, splines, surface, and solid modeling. Rough, finish and high-speed machining. Editing, post-processing and verification of completed programs. | |
| 8861 | 3 | This course is intended to qualify students with the overview of quality in terms of definitions, dimensions of quality of a product, dimensions of quality for service variables, attributes, defect, standard or specification, quality of design, quality of conformance, quality of performance, quality control: off-line quality control, statistical process controls, acceptance sampling plan, quality assurance, quality circles, quality improvement and main themes of TQM. Reliability improvements techniques-use of Pareto analysis, design for reliability, redundancy unit and standby redundancy, optimization in reliability, product design, product analysis, product development, Product life cycles are also included in this course. | |
| 8862 | 3 | This course describes the various types and locations of local industrial activity in the perspective of regional and local development. The course is designed to provide students with an understanding of the position and structure of local economic activity at various scales, as influenced by the actions of local business enterprises. The students will be introduced to selected local industries in terms of raw materials, products, main processing, block diagrams and types of generated wastes. | |
| 8863 | 1 | This course includes a variety of experiments including the examination of various characteristics of regularly used building materials such as concrete, stone, brick, and cement, as well as water and admixture. Other elements of fresh and hardened concrete will be investigated, including mixing, handling, casting (workability), density, strength, and deformation. Other tests will examine the quality control of building components such as steel, ordinary brick, and tiles. This course will provide students hands-on experience conducting laboratory experiments, analyzing data, interpreting results, and writing technical reports. Experiments will allow students to investigate the characteristics of the constituent materials of concrete, as well as the qualities of fresh and hardened concrete. Furthermore, various aggregate characteristics and cement workability will be exhibited. | |
| 8864 | 3 | Safety is one of the key dimensions of engineering asset management. Safety by design or prevention through design is in the core for maintaining engineering systems safe. The objective of this course is to impart knowledge on different facets and aspects of engineering systems safety, focusing on tools, techniques and methodologies needed for prevention of occurrences of unsafe operations and accidents under different industrial settings. Upon completion of the course, the students will be equipped with concepts of engineering systems safety, dimensions of engineering systems safety, safety design and analysis mathematics, design for engineering systems safety and control for safety, and integrating safety with other operational goals such as quality and reliability | |
| 8865 | 2 | The course focuses on current breakthroughs in particle technology and their applications in the production and processing of particulate products. This course introduces basics and principles of designing dry and wet particulate systems and related environmental treatment methods and equipment. These include screening, physical and chemical sedimentation, filtration and cyclones. In addition to engineering calculations of beds of solids including packed, and fluidized beds, as well as studying properties of particulate systems. |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4058 | Machine Design II | 3 | Analysis and Design of bolts and mechanical springs, welded joints, Geometrical analysis and design of gears (spur, helical, bevel and worm gears). Clutches. Brakes. Couplings and flywheels, Belts. Chains and ropes. Shafts and axles. Design Project. |
| 4451 | Finite Element Methods | 3 | Introduction to FEM, Stiffness matrix for spring element, FE equations, Linear static analysis, Bar element, heat flow element, Electrical resistance element, Distributed load, Transformation of coordinate systems; Element stress, Beam elements, Review of 2-D elasticity, Stiffness matrices for 2-D problems, T3, T6, Q4 and Q8 elements, Distributed loads, Stress calculation, Discussions symmetry in FEA, Solid elements for 3-D problems, Review of 3-D elasticity; FE formulation, 3-D solid elements, Axisymmetric elements, Free and forced vibration analysis of continuous vibrating systems (bars and beams). Familiarize students with professional-level finite element software ANSYS. Applications include finite element analyses, modeling of problems, and interpretation of numerical results. Term project using finite element analysis and software MATLAB and ANSYS. |
| 4453 | Maintenance Management and Methodologies | 3 | Introduction to maintenance: concepts and categories; run-to-failure maintenance, reactive maintenance, preventive (proactive) maintenance, reliability centered maintenance, corrective maintenance, predictive maintenance, condition-based maintenance. Maintenance business and management: introduction to entrepreneurship, business idea to business plan, planning and scheduling, maintenance time and outsourcing, preparing inventories and quotations, business financial aspects, business organizational structure, customer relations, personnel management, maintaining facilities, business records, insurance issues, safety regulations. Maintenance methodologies and tools: vibration analysis, fault diagnosis caused by vibrations, dynamic vibration absorbers, filters, oil and particle analysis, data acquisition, signal processing, internet-based maintenance information sources and official bodies. |
| 4460 | Pneumatic and Hydraulic Systems | 3 | Introduction to fluid power; pneumatic characteristics and applications; compressors and compressed air generation, treatments and distribution; pneumatic and electro- pneumatic components; hydraulic characteristics and applications; pumps and hydraulic power generation, treatments and distribution; hydraulic and electro-hydraulic components; basics of system design and development; component sizing, part sourcing, and assembly of pneumatic and hydraulic systems; input, control, and processing elements; hands-on experience covers assembling, testing, troubleshooting pneumatic and hydraulic systems in laboratory. |
| 5028 | Special Topics | 3 | This course includes topics which include projects and case studies in mechanical engineering are chosen according to special interest of both department and students. |
| 5622 | Project Management & Quality | 3 | The course aims to introduce the student to modern concepts and methods in project management with the help of computer packages and programs. Topics include: what is project management, characteristics and characteristics of project management and project manager, project planning, resource and resource distribution, project management methods, cost estimation and risk calculation, decision-making in setting Unstable, project follow-up and control, the use of a computer program for project management with practical applications. The course also aims to provide the student with concepts. |
| 5717 | Advanced Programming | 3 | The course takes a practical approach to introduce Python programming language. It includes Python syntax, built in data types, control constructs, functions, packages, modules and classes as part of object oriented paradigm. |
| 8250 | Industrial controllers and Networks | 3 | Introduction to PLC: components, operation and input/output interfacing. Programming languages: LADDER Logic (LD), Function Block Diagrams (FBD). Instructions: set, reset, edge detection, timers, counters and comparators. Analog input and output. PLC applications using training modules and simulation software. introduction to computer networking: network components, networks protocols. Industrial networking protocols and applications (e.g. Modbus TCP/IP, CANopen). |
| 8867 | 3 | Introduction to maintenance: concepts and categories; run-to-failure maintenance, reactive maintenance, preventive (proactive) maintenance, reliability centered maintenance, corrective maintenance, predictive maintenance, condition-based maintenance. Maintenance business and management: introduction to entrepreneurship, business idea to business plan, planning and scheduling, maintenance time and outsourcing, preparing inventories and quotations, business financial aspects, business organizational structure, customer relations, personnel management, maintaining facilities, business records, insurance issues, safety regulations. Maintenance methodologies and tools: vibration analysis, fault diagnosis caused by vibrations, dynamic vibration absorbers, filters, oil and particle analysis, data acquisition, signal processing, internet-based maintenance information sources and official bodies. | |
| 8868 | 3 | To introduce students to use quantitative methods and techniques for effective decision-making, model formulation and applications that are used in solving business decision problems including scope of Operations Research, Types, Operations Research Methodology, Role of operations research in decision-making. Linear Programming: Introduction, Linear Programming Problem, Requirements of LPP, Mathematical Formulation of LPP, Simplex Method, The Simplex Algorithm, Penalty Cost Method or Big M-method, Two Phase Method, Graphical Methods to Solve Linear Programming Problems, Applications. | |
| 8869 | 3 | This course provides an understanding of fundamental concepts of supply chain management. All functional areas of supply chain management are explored in an integrated view of procurement, manufacturing and operations management, transportation and logistics, inventory and warehousing, demand planning, scheduling, network design, collaboration and performance measurement. Topics also cover supply chain financial metrics, strategy and risk management for demand driven value networks. | |
| 8870 | 3 | Sustainable Manufacturing for Industry 4.0 highlights current thinking and expertise in this field and presents strategies to accelerate the transition to a sustainable industrial system. Manufacturing procedures that are formative. Manufacturing procedures that are subtractive. Processes for additive and hybrid manufacturing. Fixturing, assembly, and material handling Fundamentals of industry 4.0, artificial intelligence, and machine vision. The fundamentals of computer-integrated manufacturing (CIM). Aspects of industrial technology's sustainability. | |
| 8871 | 3 | The objective of this course is to provide engineering managers an overview of technologies associated with smart intelligent manufacturing, such that they can make better decisions when exploring smart manufacturing in their own organizations. The fourth Industrial revolution, particularly the Industrial Internet of things (IIoT), has brought enormous changes to the manufacturing industry. For manufacturers, the implications of this emerging "Industrial Internet of Things" are huge. Manufacturers must begin to transform existing business processes and leverage the possibilities offered by IIoT and advanced data analytics. This course provides an overview of technologies used in smart manufacturing. We focus on IIoT, advanced analytics, intelligent quality control, additive manufacturing and process automation. Sometime will also be spent to understand the historical context and the business case associated with smart manufacturing implementation. | |
| 8872 | 3 | This course is intended to provide students with a thorough grasp of production facility design, selection, and construction. Plant layout and material management procedures are covered for a variety of industries. The student will construct a plant based on a product to learn about the problems involved in designing an industrial production system. It also addresses issues such as plant location, product analysis, process design, equipment selection, material management, and plant architectural style. | |
| 8873 | 3 | In this course, the students are exposed to various low-cost automation control systems that are commonly used in industries such as pneumatic, electro pneumatic, hydraulic, electro hydraulic, electric motor controls and Programmable Logic Control (PLC), including introduction to Robotics and Internet of Things (IoTs). At the end of this course, the students will be able to design a simple control circuit for an automated system. | |
| 8874 | 3 | This course is designed to introduce the concepts of Ergonomics and to indicate the areas of Applications: Man- the prime system component, Man machine-environment interaction system and user-friendly design practice, Human compatibility, comfort and adaptability, Fundamentals of ergonomics: Physical (anthropometrics, human body- structure and function, posture, movement and biomechanics), Physiological (work physiology) and Psychological aspects (behavior, cognitive aspects and mental workload), Information processing, human error and risk perception, Visual performance and visual displays, environmental factors influencing human performance, Occupational stress, safety and health issues, Ergonomics criteria/check while designing, Design process involving ergonomics check and ergonomic design evaluation and Participatory ergonomics aspects. | |
| 8875 | 3 | The main objective of the course is to acquaint the students with the practical knowledge regarding conceptualization, design and development of a new product with a focused Value Engineering Approach. The need of a new product, the product design process, the application of Value Engineering principles in product design process have been discussed in the course. The difference between the concept of Value Engineering and Cost Cutting has been elaborated with examples. The course will also cover the topics of life cycle costs, and the importance of human relations in conducting value engineering studies. Students are expected to demonstrate ability to apply the value engineering methodology by submitting a group project of an actual case study. Also, to provide students with the knowledge about Reengineering Principles, the various models and implementation method, which are adopted in the industries. | |
| 8876 | 3 | This course is designed to give students the basic understanding of manufacturing systems and its management, including types of systems, current theories of manufacturing management, including lean thinking, JIT and demand driven manufacturing. Students will be able to develop an understanding of the performance measurement of manufacturing systems through metrics and key performance indicators. Simulation languages and case studies in -Simulation based optimization-Modelling and Simulation are also included for manufacturing and material handling system. | |
| 8877 | 3 | This course is oriented to Study and use of software for Inventory control, Facility Design Process Planning Production control. Study of simulation software and applications in material flow, Study of software for simple project management, Study and use of PDM software for collaborative design and manufacturing, creation and use actual manufacturing database. | |
| 8878 | 3 | Criteria for selection of materials, application of statistics in materials selection, specification of steels, composition, heat treatment, microstructure and properties of ferrous and non-ferrous alloys, ceramics and polymers for light and heavy structural, corrosion resistant, magnetic, electrical and electronic applications, medical implants and prostheses application. | |
| 8879 | 3 | This course provides a basic introduction but in-depth coverage of plastic mold design using CAD and CAE software, particularly for designing plastic injection mold. The CAD and simulation software used in the product and process design phases help the students to optimize the mold design. It is hoped that through this exposure the students will be able to further develop their design capability in actual working environment, thereby fill the presently serious gap of local engineering know how in this field. | |
| 8880 | 3 | This course is intended to introduce the characteristic features of casting and welding processes. Process characteristics, analysis, and design criteria of various casting and welding processes will be discussed in detail with examples and video clips from industries. Typical numerical examples will be discussed to help the students understand the theory in a better way with detailed information about the molding processes, knowledge of various casting process in manufacturing, impart knowledge of various welding processes used in manufacturing, and provide adequate knowledge of quality test methods conducted on welded and casted components. | |
| 8881 | 3 | This course aims to educate students on the theory and application of surface treatments, with a focus on the most commonly used surface treatments performed from a solution state. The development of fundamental and deep knowledge in the theory of material deterioration and corrosion in various environments, as well as the explanation of current corrosion protection solutions in various situations. The course also focuses on the characteristics and implications of metal and oxides characteristics on corrosion behavior, as demonstrated by various protection kinds. | |
| 8882 | 3 | The Powder Metallurgy course is to prepare students for careers in metallurgy engineering where knowledge to provide them with an insight into the emerging technology of powder metallurgy as an alternative route to conventional metal processing. It is important to understand and appreciate the importance of powder metallurgy as an effective and profitable material processing route to produce a variety of products for engineering industries. The course provides detailed knowledge of powder production and processing as well as to choose the right method to suit application in hand. The various techniques are used for powder production and the versatile nature of these techniques to produce a wide range of powders. Characterization of powder, subsequent compaction methods and sintering knowledge is very much important in Powder Metallurgy. By this course to recognize technical attraction of Powder Metallurgy for Production of metals and alloys in the form of semi-dense finished parts or fully dense structural shapes. The major goal of program is to hasten development of the necessary scientific and engineering base i.e., to establish the powder fabrication route as a technologically and economically viable means of materials production. | |
| 8883 | 3 | In this course, the students are exposed to various machining tools analysis and the interrelationships between machining quality and machining tools such as cutters, drills, grinding. Observation methods of machining quality such as chip formation analysis, dynamic shear strain, criticism of single shear plane theory, effect of cutting variables on chip reduction coefficient, Different types of chips, chip curl and cross section are also discussed. Moreover, the student will be able to determine the failure of cutting tools, essential properties of cutting tools, development of tool materials- carbide, HPC, CBN, diamond. | |
| 8884 | 3 | New market demands in terms of cost, short period of product development and product quality necessitate the application of more efficient ways of designing the products and tools, which includes the use of new CAD/CAM technology for modeling and simulation of machining processes. Hence, this course is intended to expose students with the study and analysis of the machining process, its visualization through virtual simulation models is obtained using FEA to increase the efficiency of design, quality of the finished product and provides a quick and effective means for testing and optimization of the product. | |
| 8885 | 3 | This course is primarily designed for fundamental understanding of different additive manufacturing technologies for realizing the metallic and non-metallic objects. The syllabus is oriented to cover from basic understanding to practical applications of additive manufacturing to develop the products. The special emphasis is given to link computer interface with the digital manufacturing process and their demonstration using commercially available software. The modules cover the direction of additive manufacturing technologies, and it is blended with fundamental development to the recent technologies. The students will be able to develop a fundamental understanding of different perspectives and recent development in this field through the lectures, skill development through demonstration, and reinforce their knowledge by solving assignments. | |
| 8886 | 3 | An introduction to the science and technology of composite materials and structures. Topics covered include the anisotropic nature of typical laminated composite materials, polymeric composites, constituent materials, the processes used to manufacture composites, tooling requirements, analysis methods, non-destructive inspection, and repair. | |
| 8887 | 3 | This course covers the statistical design of experiments for systematically examining how a system function. Topics covered will include: introduction to experiments, completely randomized designs, blocking designs, full factorial designs with two levels, fractional designs with two levels and response surface designs. Both design and statistical analysis issues are discussed. Opportunities to use the principles taught in the course arise in all aspects of today’s industrial and business environment. Applications from various fields will be illustrated throughout the course. Computer software packages (JMP, Design-Expert, Minitab) will be used to implement the methods presented and will be illustrated extensively. Case studies from field situations and real products will be used to illustrate these principles. | |
| 8888 | 3 | The course started with an overview to the ideas of sustainable development and design from an interdisciplinary standpoint. A wide orientation and overview of several design concepts and models of sustainable design, such as design with inspiration from nature and based on ecological systems and requirements, is undertaken. A critical analysis and debate, these instances are analyzed and critiqued, with an emphasis on ethics, power, dangers and possibilities, idea-historical examples, diverse cultures and world views, and aesthetics. The course attempts an interdisciplinary work approach in which design integrates technological, social, economic, ecologically linked, and sustainable systems. The project work allows for the use of a variety of innovative presentation strategies. | |
| 8889 | 3 | The course covers the basic concepts of cleaner production, basic methods of cleaner production and their tools (pre-assessment, assessment and evaluation of cleaner production projects). It also focuses on water conservation, air pollution reduction, waste reduction and energy conservation with some real case studies from several industries. In addition, it introduces Pinch Technology as a tool for energy conservation And recovery. | |
| 8890 | 3 | Municipal and industrial solid waste and service (medical) waste, their characteristics and divisions, collection of various wastes, transporting and sorting them in private landfills, sorting waste at their production sites, managing, collecting and transporting waste, sanitary landfills, dealing with hazardous waste | |
| 8891 | 3 | The sources, types and characteristics of hazardous wastes, the problems they cause, and how to deal with those wastes (treatment, transport, sedimentation, storage, incineration, recycling, ... etc.), the conditions for dealing with them, and the conditions for hazardous waste producers. |