Department: Mechatronics Engineering
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Department: Mechatronics Engineering Mechatronics Study Plan Framework for B.Sc. Degree (Semester Credits) Classification Credit Hours Compulsory Elective Total University Requirements 31 6 37 Faculty Requirements 56 0 56 Program Requirements: 71 12 83 158 18 176 Total = 1. University Requirements: ( 37 Credit Hours) 1.1. Compulsory : (31Credit Hours) Prerequisite Course No. Course Title Cr. Hr. Lecture Lab. ARB 301 Arabic 3 3 - - ENGL 098 English I* 0 - 3 - ENGL 099 English II* 0 - 3 ENGL 098 ENGL 101 English III* 1 - 3 ENGL 099 ENGL 102 English IV* 1 - 3 ENGL 101 ENGL 201 English V* 2 1 3 ENGL 102 ENGL 202 English VI 2 1 3 ENGL 201 GER 101 German I 2 - 6 - GER 102 German II 2 - 6 GER 101 GER 201 German III 2 - 6 GER 102 GER 202 German IV 2 - 6 GER 201 GER 301 German V 2 - 6 GER 202 GER 302 German VI 2 - 6 GER 301 NE 101 National Education 3 3 - - CS 111 Computing Fundamentals 4 3 3 - MILS 100 Military Sciences 3 3 - - 1.2. Elective: (6 Credit Hours) (two classes out of the following) Prerequisite Course No. Course Title Cr. Hr. Lecture Lab. IC 101 Intercultural Communications 3 3 - - SFTS 101 Soft Skills 3 3 - - SE 301 pihsruenerpretnE 3 3 - - Cr. hr. Lecture Lab. 2. Faculty Requirements: ( 56 Credit Hours) Prerequisite Course No. Course Title MATH 101 Calculus I 3 3 - - MATH 102 Calculus II 3 3 - MATH 101 MATH 201 Applied Math for Engineers I 3 3 - MATH 102 PHYS 101 Physics I 4 3 3 PHYS 102 Physics II 4 3 3 PHYS 101 CHEM 101 General Chemistry 4 3 3 - ENRE 211 Electrical Circuits I 4 3 3 PHYS 102 IE 121 Engineering Workshop 1 - 3 - IE 221 Material Science 3 2 3 CHEM 101 IE 222 Manufacturing Processes 3 2 3 IE 121 IE 353 Engineering Economics 3 3 - MATH 201 IE 541 Industrial Automation 4 3 3 ME 343 ME 111 Computer Aided Engineering Drawing 3 1 6 CS 111 ME 211 Statics and Dynamics 3 3 - PHYS 101, MATH 102 ME 221 Thermodynamics 3 3 - MATH 102 ME 342 Instrumentation and Measurements 4 3 3 ENRE 211 ME 343 Automatic Control Systems 4 3 3 MATH 201 3. Program Requirements (Compulsory): ( 71 Credit Hours) Prerequisite Course No. Course Title Cr. hr. Lecture Lab. CS 212 Object Oriented Programming 4 3 3 CS 111 CE 211 Digital Systems 4 3 3 ENRE 211 CE 341 Microprocessor and Microcomputer Systems 4 3 3 MATH 201 CE 442 Microcomputer Interface and peripheral devices 4 3 3 CE 341 ENRE 213 Fundamentals of Analog Electronics 4 3 3 ENRE 211 ENRE 312 Fundamentals of Digital Electronics 4 3 3 ENRE 213 ME 331 Electrical Machines and Drives 4 3 3 ENRE 211 ME 222 Fluid Mechanics 3 3 - MATH 102 MATH 301 Applied Math for Engineers II 3 3 - MATH 201 ME 322 Heat Transfer 2 2 - ME 221 ME 361 Hydraulic and Pneumatic Systems 4 3 3 ME 221, ME 222 ME 391 Field Training* 0 - - - ME 451 Programmable Logic Controllers 3 2 3 CE 341 ME 491 Industrial Training 12 - 36 ME 391 ME 511 Machine Design 3 3 - ME 211 ME 512 Machine Design Lab 1 - 3 ME 511 ME 561 Mechatronics Systems Design and Integration 3 3 - ME 343, ME 361, CE 442 ME 541 Real-Time Computer Control Systems 3 3 - ME 343 ME 591 Graduation Project I 3 - 9 ME 491 ME 592 Graduation Project II 3 - 9 ME 591 Total 71 3.2-Program Requirements ( Electives): ( 12 Credit Hours) Prerequisite Cr. Hr. Lecture Lab. or *Corequisite Course No. Course Title ME 543 Process Control 3 2 3 ME 343, ME 361 ME 552 Maintenance of Mechatronics systems 3 2 3 ME 361, ME 343 ME 544 Mechatronics of Food , Beverages and Petro-Chemical Process Systems 3 2 3 ME 451 ME 545 CNC and Manufacturing Control 3 2 3 IE 222 ME 553 Mobile Robots 3 2 3 ME 343 ME 565 Micro-Electro-Mechanical Systems (MEMS) 3 - - ME 211, ME 343 ME 562 Nano Systems 3 - - ME 211 ME 547 State-Space Control and Observers 3 3 ME 343 ME 563 Mechatronics of Computer Hard Disk 3 2 3 CE 442 ME 564 Mechatronics of Smart Materials 3 2 3 ME 343, IE 221 ME 546 Linear Systems 3 3 - ME 343 ME 555 Machine Intelligence 3 3 - ME 343 ME 599 Special Topics 3 3 - Dept. Approval Study Plan Guide for the Bachelor Degree in Mechatronics First Year First Term Course No. Course Title Cr. hr. ENGL98 English I, II, III, IV, V, VI* 0 GER101 German I 2 CS111 Computing fundamentals 4 MATH101 Calculus I 3 PHYS101 Physics I (Mechanics) 4 CHEM101 General Chemistry 4 IE121 Eng. Workshop 1 Prerequisite Co-requisite Co-requisite Total 18 Course Title Cr. hr. Prerequisite Second Term Course No. ENGL99 English II, III, IV, V, VI* 0 ENGL98 GER102 German II 2 GER101 MATH102 Calculus II 3 MATH101 PHYS102 Physics II (Electr. & Magnt.) 4 PHYS101 ME111 Computer Aided Engineering Drawing 3 CS111 IC101 Intercultural communications 3 _ NE101 National Education 3 _ Total 18 Second Year First Term Course No. Course Title Cr. hr. Prerequisite ENGL101 English III, IV, V, VI* 1 ENGL99 GER201 German III 2 GER102 MATH201 Applied Mathematics for Engineers I 3 MATH102 IE221 Material Sciences 3 CHME101 ME211 Mechanics (static & dynamic) 3 PHYS101,MATH102 ENRE211 Electrical Circuits I 4 PHYS102 ME221 Thermodynamics 3 MATH102 Total Co-requisite 19 Second Term Course No. Course Title Cr. hr. Prerequisite ENGL102 English IV, V, VI* 1 ENGL101 GER202 German IV 2 GER201 ME 222 Fluid Mechanics 3 MATH 102 IE 222 Manufacturing Process 3 IE 121 CS 212 Object-Orinted Programming 4 CS 111 CE 211 Digital Systems 4 ENRE 211 SFTS 101 Soft Skills 3 _ Total 20 Co-requisite Third Year First Term Course No. Course Title Cr. hr. Prerequisite ENGL201 English V, VI* 2 ENGL102 GER301 German V 2 GER202 CE 341 Microproccsser and Microcomputer System 4 Math 201 MATH 301 Applied Math for Engineers II 3 MATH 201 ME 342 Instrumentation and measurements 4 ENRE 211 ENRE 213 Fundamentals of Analog Electronics 4 ENRE 211 Total 19 Course Title Cr. hr. Prerequisite Co-requisite Second Term Course No. ENGL202 English VI* 2 ENGL201 GER302 German VI 2 GER301 ME 343 Automaic Control Systems 4 Math 201 ME 361 Hydrualic and Pneumatic Systems 4 ME 221, ME 222 ME 331 Electrical Machines and Drives 4 ENRE 211 ENRE 312 Fundamentals of Digital Electronics 4 ENRE 213 ME 391 Field Training 0 Total 20 Co-requisite Fourth Year First Term Course No. Course Title Cr. hr. Technical Elective 3 Technical Elective 3 Technical Elective 3 Technical Elective 3 Prerequisite Co-requisite Co-requisite Total 12 Course Title Cr. hr. Prerequisite 12 ME391 Second Term Course No. ME491 Industrial training Total 12 Fifth Year First Term Course No. Course Title Cr. hr. Prerequisite ME 451 Programmable Controllers 3 CE 341 ME 511 Machine Desgin 3 ME 211 ME 541 Real-Time Computer Control Systems 3 ME 343 CE 442 Microcomputer Interface and Peripheral Devices 4 CE 341 ME 322 Heat Transfer 2 ME 221 ME 591 Graduation Project I 3 ME 491 Total 18 Course Title Cr. hr. Co-requisite Second Term Course No. Prerequisite ME 561 Mechatronics Systems Desgin and Integration 3 ME 343, ME 361, CE 442 IE 541 Industrial Automation 4 ME343 ME 512 Machine Desgin Lab 1 ME 511 IE 353 Engineering Economics 3 MATH 201 ME 592 Graduation Project II 3 ME 591 ARB 301 Arabic 3 _ Total 17 Co-requisite Course Code Example: ME 451 Program : ME is the Symbol for Mechatronics Engineering Level: The first Number 4 represent the fourth year of the study plan Field: Number 5 represents the group number of Control Sequence: The Third Number 1 represents a unique serial number of the course in the field of Control. Group Topics 0 Sciences 1 Mechanical Applied 2 3 ME 111 Computer Aided Engineering Drawing ME 211 Statics and Dynamics ME 511 Machine Desgin ME 512 Machine Desgin Lab Mechanical Power ME 221 Thermodynamics ME 222 Fluid Mechanics ME 322 Heat Transfer Electrical/Electronics ME 331 4 Electrical Machines Control ME 342 Instrumentation and measurements ME 343 Automaic Control Systems ME 451 Programmable Logic Controllers ME 541 Real-Time Computer Control Systems 5 6 7 IE 541 Industrial Automation ME 543 Process Control ME 544 Mechatronics of Food , Beverages and Petro-Chemical Process Systems ME 545 CNC and Manufacturing Control ME 547 State-Space Control and Observers ME 546 Linear Systems Mechatronics Systems ME 552 Maintenance of Mechatronics systems ME 553 Mobile Robots ME 555 Machine Intelligence Mechatronics Desgin ME 361 Hydrualic and Pneumatic Systems ME 561 Mechatronics Systems Desgin and Integration ME 565** Micro-Electro-Mechanical Systems (MEMS) ME 562** Nano Systems ME 563** Mechatronics of Computer Hard Disk ME 564** Mechatronics of Smart Materials Engineering Math and Numerics ME 271 ** 8 Empty 9 Applications Numerical Analysis ME 391 Field Training ME 491 Industrial Training ME 591 Graduation Project I ME 592 Graduation Project II ME 599 Special Topics Technical Electives Description of Courses offered by Mechatrnics Department ME 111 Computer Aided Engineering Drawing: (3 Cr.) The Use of computer aided software in drawing such as AutoCAD. Geometric constructions. Orthographic and Isometric projections; Sketching, sectioning, dimensioning and layering. Model layout (wire-frame, surface, and solid modeling), plotting to scale, blocks and attributes, Introduction to descriptive geometry, perspective drawing. Engineering applications. Prereq: CS 111 ME 211 Statics and Dynamics: (3 Cr.) Basic concepts of mechanics, vectors. Statics of particles. Rigid bodies and force systems, equilibrium of rigid bodies. Analysis of trusses and frames. Distributed forces, centroids and moments of inertia. Friction. Internal shear and bending moments in beams. Kinematics of particles, rectilinear and curvilinear motion. Kinetics of particles, application to space mechanics. Energy and momentum methods. Systems of particles. Kinematics and kinetics of rigid bodies; planar motion. Prereq: PHYS 101, MATH 102 ME 221 Thermodynamics: (3 Cr.) Thermodynamics concepts and definition, properties and behavior of pure substances. Energy transfer by work. First and second laws of thermodynamics and entropy. Gas power cycles, vapor and combined power cycles, and refrigeration cycles. Prereq: MATH 102 ME 222 Fluid Mechanics: (3 Cr.) Physical properties of fluids and fundamental concepts in fluid mechanics. Hydrostatics. Conservation laws for mass, momentum and energy. Flow similarity and dimensional analysis as applied to engineering problems in fluid mechanics. Laminar and turbulent flow. Engineering applications such as flow measurement, flow in pipes and fluid forces on moving bodies. Prereq: MATH 102 ME 322 Heat Transfer: (3 Cr.) One dimensional conduction; steady and transient analysis. Introduction to convection heat transfer. Forced convection heat transfer in external flows. Radiation heat transfer; radiation properties, and radiation heat exchange between ideal surfaces. Prereq: ME 221 ME 331 Electrical Machines (4 Cr.) Principles of magnetic circuit concepts, transformers, DC machines, synchronous machines, induction machines, and special purpose machines. Introduce the principle of converting electrical energy to mechanical energy and vise versa via electromagnetic field. To introduce different machines, their operating principle and the analysis of key characteristics. To provide the basis for further study of electric machines. Prereq: ENRE 211 ME 342 Instrumentation and Measurements: (4 Cr.) Measurements with different micrometers & vernier measuring instruments, angular measurements, roundness & concentricity of cylindrical work pieces, tool maker’s microscope, optical projectors, surface measurements. Analysis of experimental data and error estimation. Basic electrical measurement and sensing devices: physics of electric, magnetic, chemical sensors Displacement, area, pressure, flow, temperature, thermal and transport properties, force, torque and strain measurements. Smart sensors and networking of sensor systems. Data acquisition and processing. Prereq: ENRE 211 ME 343 Automatic Control Systems: (4 Cr.) Modeling of electrical, pneumatic, hydraulic and mechanical systems, Transfer functions, block diagrams, and signal flow graph. Time domain analysis, test signals, transient response, steady state error and stability. Root locus, bode plots, PID control, phase-lead, phase lag. Software application such as Matlab and Simulink. Prereq: MATH 201 ME 361 Hydraulic and Pneumatic Systems (4 Cr.) Pneumatic and hydraulic components: compressor, cooler, compressed-air containers, filters, valves, pumps, piping system basic circuits in pneumatics and hydraulics, design and simulation of pneumatic and hydraulic circuits, servo pneumatics and servo hydraulics, basics of servo drives, assembling, measuring techniques. Prereq: ME 221, ME 222 ME 451 Programmable Logic Controllers (3 Cr.) Basic hardware configuration for a PLC system. Programming languages, Operation of a PLC, programming with statement list, ladder diagram, function chart, application for logic control, application for sequence control, simulation of discrete processes, advanced PLC programming, networking of different manufacturing processes, data communication, assembling, commissioning and configuring bus systems like Profibus, Ethernet, LAN networks, process visualization (WinCC, Intouch), tele-diagnosis over internet, project. Prereq: CE 341 ME 511 Machine Design (3 Cr.) Analytical review of current design practices and specification of standard components encountered in mechanical engineering. Influence of stress-strength in determining the actual configuration of mechanical elements. Standard components covered include various types of mechanical drives, cams, clutches, couplings, brakes, seals, fasteners, springs, and bearings. Design of springs; design of gear and hydraulic drives, design for hydrodynamics and hydrostatic lubrication; optimum design of electro-mechanical systems, design strategy, value and merit function, maximizing and minimizing procedures. Prereq: ME 211 ME 512 Machine Design Lab (1 Cr.) Computer-aided design and assembly of electro-mechanical elements and machines. Project oriented lab. Prereq: ME 511 ME 541 Real-Time Computer Control Systems (3 Cr.) Review of continuous control. Dynamic response, Feedback properties, Root locus and frequency response designs. Introduction to digital control. Discrete system analysis. Difference equations, Discrete transfer functions, z-transform, Discrete signal analysis. Discrete approximation of differential equations, Effects of Sampling, PID control in discrete systems. Sampled-data systems. Sample & Hold, Spectrum of sampled signals, Data extrapolation, Block diagram analysis. Discrete equivalences. Numerical integration, Pole & zero mapping, Hold equivalence. Design using transform techniques. Design by emulation, Design by root-locus, Design by frequency response. Implementation of Direct Digital Control algorithms. Implementation of the basic PID algorithm, Synchronization of the control loop, Timing Considerations in Implementation of Control Loops. Hard and soft real-time systems, Real-time scheduling theory, Deadlines in real-time control systems. Prereq: ME 343 ME 543 Process Control (3 Cr.) Dynamics of mechanical, food, beverage and chemical processes; system capacity; resistance; piping complexes; characteristics and dynamics of control valves; control of pressure, speed, PH, mixing ration, Boolean algebra and fluid logic, sequential circuits, process time constants; proportional, reset, and derivative control actions; feedforward and cascade control; direct digital control. Prereq: ME 343, ME 361 ME 544 Mechatronics of Food , Beverage and Petro-Chemical Process Systems (3 Cr.) Introduction to food, beverage and petro-chemical industry: water, diary, snacks, processed canned food, plastics, petrochemicals, etc, process parameter control, packing, filling, material handling, packaging, Modeling, design and control of a food machines and production lines, developing manual to semi-manual or fully-automated process. Project-oriented with the Jordanian Industry. Prereq: IE 541 ME 545 CNC and Manufacturing Control (3 Cr.) Concepts and benefits of computer integrated manufacturing (CIM). Design for manufacturing. Computer-aided design, process planning, manufacturing (computer numerical control parts programming), and inspection. Robots in CIM. Production planning and scheduling in CIM. System integration. Prereq: IE 222 ME 546 Linear Systems (3 Cr.) Review of matrix algebra. State-space description of dynamic systems: linearity, causality, timeinvariance, linearization. Solution of state-space equations. Transfer function representation. Discrete-time models. Controllability and observability. Canonical forms and minimal-order realizations. Stability. Stabilizability and pole placement. Linear quadratic optimal control. Observer design. Prereq: ME 343 ME 547 State Space Control and Observers Pole placement design of both controllers and observers using Matlab. Regulator and servo design. Optimal design of controllers and observers. Quadratic Optimal Regulator Systems. Prereq: ME 343 ME 552 Maintenance of Mechatronics systems (3 Cr.) Assembly and commissioning of a mechatronic production line, troubleshooting of a mecahtronic production system, tele-services, software application, safety test procedures and quality control management, interpretation of commissioning protocols, error documentation, corrective maintenance, debugging procedure, error analysis, error correction, fault clearance, preventive maintenance, inspection test of wear, fatigue, maintenance planning, maintenance of sensors, actuators, control panel and controllers, PLC's. Prereq: ME 361, CE 442 ME 553 Mobile Robots (3 Cr.) To introduce variety of autonomous mobile robots, but concentrate on wheeled robots. In particular students will build, experiment with and compete with the mini-mobile robots. Topics to be covered include robot platforms & modelling, control structures, sensing & estimation, localization, motion planning and multi-robot systems. Prereq: ME 343 ME 555 Machine Intelligence (3 Cr.) The objective of this course is to introduce the students to current intelligent system concepts. An overview of different learning schemes will be provided, including: Decision Tree, Bayesian, Inductive, Analytical and Rule-based Learning. The main focus of the course will be on Neural Nets, Genetic Algorithms and Reinforcement Learning, adaptive control. Prereq: ME 343 ME 561 Mechatronics Systems Design and Integration (3 Cr.) Design and planning of the system, purchase (virtual) of different components, sensors and actuator units, machine parts, devices, electric, mechanical, pneumatic, hydraulic components, PLC and control units, assembly, commissioning, interfacing, software and programming, calibration, standard checks, test operation, troubleshooting, documentation, service and maintenance, safety, cost, delivery and disassembly and packing. Prereq: ME 343, ME 361, CE 442 ME 562 Nano Systems (3 Cr.) Assembly, manipulation and control of materials at the atomic and molecular scale to fabricate structures, devices and systems that have novel properties and functionality. Prereq: ME 211 ME 563 Mechatronics of Computer Hard Disk (3 Cr.) Computer hardware architecture, components of the computer hard disk drive, mechanism of the hard disk, modelling of the hard disk slider, control of the slider actuator, modelling of aerodynamics and contact forces, friction forces, and input forces, real-time control of slider motion. Prereq: CE 442 ME 564 Mechatronics of Smart Materials (3 Cr.) Properties of smart materials, classes of smart materials, Shape memory alloy materials, piezoelectric materials, smart sensors, smart actuators, mechatronics of smart materials: modelling, design, digital control, and their applications. Prereq: IE 221, ME 343 ME 565 Micro-Electro-Mechanical Systems (MEMS) (3 Cr.) Introduction to micromachining processes; mechanical properties of materials used in micromechanical systems; design and fabrication of free standing structures; sacrificial and structural layers; finite element modelling; micromechanical components; solid lubrication of microbearings; special techniques: double-side lithography, anodic bonding, electro-chemical drilling, deep etching, LIGA process, laser microfabrication; influence of IC fabrication processes on the mechanical properties; applications in microdevices; simulation and packaging. Prereq: ME 211, ME 343 Description of Courses offered from Industrial and Management Systems Engineering Department IE 121 Engineering Workshop (1 Cr.) General safety, materials and their classifications, measuring devices and their accuracy, basic household plumbing and electricity, fits and tolerances, theoretical background for the practical exercises including fitting, forging, carpentry, casting, welding, mechanical saws, shearers, drills, lathes, milling machines, shapers and grinders. IE 221 Material Science (3 Cr.) Classification and study of engineering materials, their structure, properties, and behavior, typical metals and alloys, plastics and rubber, and ceramic materials; phase equilibrium and manipulation of properties and behavior by adjustment of composition and processing variables; responses of engineering materials to stress and environmental variables, mechanical properties. Material Science Lab: Hardness, tensile, compression, impact, torsion, creep and fatigue tests. Macro-and micro-examination of metals. Prereq: CHEM 101 IE 222 Manufacturing Processes (3 Cr.) Traditional manufacturing processing of materials (ferrous and non-ferrous) including metal cutting, casting, rolling, forging, and drawing. Modern manufacturing processes and related topics including ceramics, composites, powder metallurgy, property enhancing and surface processing operations, and rapid prototyping. Manufacturing Processes Lab: Experiments in casting, forming, machining, welding, heat treatment and plastic manufacturing. Prereq: IE 121 IE 353 Engineering Economics (3 Cr.) Time value of money, interest formula, depreciation models, tax effects, rate of return, cash flow. project evaluation methods, replacement analysis, break even analysis, economic studies for decision making under risk. Prereq: MATH 201 Description of Courses offered from Mechatrnics Department ME 111 Computer Aided Engineering Drawing: (3 Cr.) The Use of computer aided software in drawing such as AutoCAD. Geometric constructions. Orthographic and Isometric projections; Sketching, sectioning, dimensioning and layering. Model layout (wire-frame, surface, and solid modeling), plotting to scale, blocks and attributes, Introduction to descriptive geometry, perspective drawing. Engineering applications. Prereq: CS 111 ME 211 Statics and Dynamics: (3 Cr.) Basic concepts of mechanics, vectors. Statics of particles. Rigid bodies and force systems, equilibrium of rigid bodies. Analysis of trusses and frames. Distributed forces, centroids and moments of inertia. Friction. Internal shear and bending moments in beams. Kinematics of particles, rectilinear and curvilinear motion. Kinetics of particles, application to space mechanics. Energy and momentum methods. Systems of particles. Kinematics and kinetics of rigid bodies; planar motion. Prereq: PHYS 101, MATH 102 ME 221 Thermodynamics: (3 Cr.) Thermodynamics concepts and definition, properties and behavior of pure substances. Energy transfer by work. First and second laws of thermodynamics and entropy. Gas power cycles, vapor and combined power cycles, and refrigeration cycles. Prereq: MATH 102 ME 342 Instrumentation and Measurements: (4 Cr.) Measurements with different micrometers & vernier measuring instruments, angular measurements, roundness & concentricity of cylindrical work pieces, tool maker’s microscope, optical projectors, surface measurements. Analysis of experimental data and error estimation. Basic electrical measurement and sensing devices: physics of electric, magnetic, chemical sensors Displacement, area, pressure, flow, temperature, thermal and transport properties, force, torque and strain measurements. Smart sensors and networking of sensor systems. Data acquisition and processing. Prereq: ENRE 211 ME 343 Automatic Control Systems: (4 Cr.) Modeling of electrical, pneumatic, hydraulic and mechanical systems, Transfer functions, block diagrams, and signal flow graph. Time domain analysis, test signals, transient response, steady state error and stability. Root locus, bode plots, PID control, phase-lead, phase lag. Software application such as Matlab and Simulink. Prereq: MATH 201 Description of Courses offered outside the faculty of Technological Sciences MILS 100: Military Sciences (3 Cr. Hrs.) History of the Jordanian Arab Army. United Nations Peace Keeping Forces. Preparation of the nation for defense and liberation. History of the Hashemite Kingdom of Jordan and its development. ARB 100: Arabic (3 Cr. Hrs.) Grammar and structure. Rectifying weakness in linguistic application; training in sound reading. Dictation; use of language in a manner free from grammatical and linguistic errors; accurate expression of intended meaning. Study and analysis of literary texts through the discussion of linguistic, grammatical and writing skills therein. ENGL 098: English I (Elementary English) (0 Cr. Hrs.) Students will focus on English at an elementary level concentrating on the receptive skills of reading and listening, and the productive skills of writing and speaking. These will include such things as independent clauses, verb tenses, model verbs, adverbs, short dialogues, reading simple material and answering short questions, writing short meaningful sentences, listening to short conversations. ENGL 099: English II (Pre-Intermediate English) (0 Cr. Hrs.) Students will focus on English at a pre-intermediate level concentrating on the receptive skills of reading and listening and the productive skills of writing and speaking. These will include such things as comparatives and superlatives, quantifiers, possessive adjectives and pronouns, vocabulary building, role play activities for speaking, reading comprehension and writing short descriptive paragraphs. ENGL 101: English III (Intermediate English) (1 Cr. Hr.) Students will focus on English at an intermediate level concentrating on the receptive skills of reading and listening and the productive skills of writing and speaking. These will include collocations, tense review, affirmative, negative statements, synonyms and antonyms, time clauses, conditionals, active and passive forms, reported speech, phrasal verbs, reading comprehension with detailed questions, vocabulary and writing developed descriptive and opinion essays. ENGL 102: English IV (Upper-Intermediate English) (1 Cr. Hr.) Students will focus on English at an upper-intermediate level concentrating on the receptive skills of reading and listening and the productive skills of writing and speaking. Model verb review, silent letters and proper pronunciation, jobs and careers, requests and offers, more phrasal verbs with vocabulary building, relative clauses and relative pronouns, narrative tenses for writing exercises, wishes and regrets, reading and comprehending longer passages with direct and inference questions of medium difficulty, hypothesizing, and writing fully developed descriptive, argumentative and analytical essays of 350 words. ENGL 201: English V (Advanced English I) (2 Cr. Hrs.) Students will focus on English at an Advanced level. Students will analyze and produce 2 – 3 page essays with an emphasis on argumentation and persuasion working both independently and cooperatively to gather, evaluate, and synthesize necessary information. Class activities include interactive lectures, small group and class discussions, informal debates, peer feedback, individual presentations, focused listening exercises and focused viewing exercises as well as assorted reading, writing, and grammar assignments. There will be some poetry analysis together with reading and understanding a short story and a drama using basic literary terms and concepts. ENGL 202: English VI (Advanced English II) (2 Cr. Hrs.) Students will continue to focus on English at an Advanced level. Students will analyze and produce 4 – 5 page essays emphasizing argumentative, persuasive and discursive styles of writing, working both independently and cooperatively to gather, evaluate, and synthesize necessary information. Students will integrate the practice of critical thinking and reading into the writing process. Class activities include interactive lectures, small group and class discussions, informal debates, mini-conferences, peer feedback, individual presentations, focused listening exercises and focused viewing exercises as well as assorted reading, writing, and grammar assignments. There will be some poetry analysis together with reading and understanding a short story and a drama using stronger and more intensive literary terms and concepts than in 201. GER 101: German I (2 Cr. Hrs.) Can understand and use familiar, everyday expressions and very simple sentences, which aim at the satisfaction of specific needs. Can introduce oneself, and others, and ask others questions to themselves - e.g. where they live, which people they know or what kind of things they have - and can give answers on questions of this kind. Can communicate on a basic level if those involved with him/ her in a conversation speak slowly and clearly and are willing to help. GER 102: German II (2 Cr. Hrs.) Can understand sentences and frequently used expressions if those are connected with things of immediate meaning (e.g. information to the person and to the family, buying, work, closer environment). Can communicate in simple, routine situations, with the purpose of a simple and direct exchange of information about familiar and common things. Can describe with simple means their own origin and training, direct environment and things that are in connection with direct needs. GER 201: German III (2 Cr. Hrs.) Can understand the main points if no dialect is used and if it concerns familiar things about work, school, spare time etc. Can master most situations which one encounters on journeys in a German speaking area. Can express oneself simply and coherently about familiar topics and areas of personal interest. Can report experiences and events, describe dreams, hopes and goals and give short reasons or explanations about plans and opinions. GER 202: German IV (2 Cr. Hrs.) Can understand the main contents of complex texts, as well as concrete and abstract topics; even discussions between specialists in his/ her own special field. Can communicate spontaneously and fluidly a normal discussion with native speakers, without larger effort on both sides. Can express oneself clearly and in detail in a broad spectrum of topics, describe a point of view to a current question and indicate the pro and cons of different possibilities. GER 301: German V (2 Cr. Hrs.) Can understand and also seize implicit meanings of a broad spectrum of demanding, longer texts. Can express oneself spontaneously and fluidly, recognizing words without having to search for words frequently. Can use the language effectively and flexibly in social and vocational life or in training and study. Can express oneself clearly, structured and detailed, to complex subjects and use appropriate different means for linkage of texts. GER 302: German VI (2 Cr. Hrs.) Can understand and assimilate appropriately written and spoken texts, which are relevant in a university-referred context. Can implement appropriately writings and actions of speech, which are relevant in a university-referred context. CHEM 101: General Chemistry (4 Cr. Hrs) Stoichiometry of formulas and equations. Gases and the kinetic-molecular theory. Quantum theory and atomic structure. The components of matter. The major classes of chemical reactions (precipitation, acid-base, oxidation-reduction, and reversible reactions). Thermodynamics: energy flow and chemical change. Quantum theory and atomic structure. Electron configurations and chemical periodicity. Kinetics: rates and mechanisms of chemical reactions. Equilibrium: The extent of chemical reactions. Acid-base equilibria. PHYS 101 Physics I (Mechanics): (4 Cr. Hrs.) Physics and measurement. Motion in one dimension. Vectors . Motion in two dimensions. Force and motion. Kinetic energy and work. Potential energy and conservation of energy. Linear momentum and collisions. Rotation. Rolling and angular momentum. PHYS 102 Physics II(Electricity and Magnetism): (4 Cr. Hrs.) Electric Fields. Gauss's Law. Electric Potential. Capacitance and Dielectrics. Current and Resistance. Direct Current Circuits. Magnetic Fields. Sources of Magnetic Field. Faraday's Law. MATH 101: Calculus I (3 Cr. Hrs.) This course introduces the student to the calculus of single-valued functions. Topics include: limits, continuity, rates of change, rules for differentiating, differentials and local linear approximations, maxima and minima problems, L’Hôpital’s rule, related rates, logarithmic and implicit differentiation, inverse trigonometric and hyperbolic functions, Rolle’s theorem, the mean-value theorem, and applications of derivatives and integrals. MATH 102: Calculus II (3 Cr. Hrs.) This is a course in multivariate calculus as a continuation of Calculus I. The course focuses on power series, polar coordinates and polar functions, sequences and infinite series, vectors, functions of several variables and their limits, partial differentiation and their applications. The course views multiple integrals: double and triple, line integrals, surface integrals, Green’s theorem, Gauss's divergence theorem, and Stoke’s theorem. MATH 201: Applied Mathematics for Engineers I (3 Cr. Hrs.) This course begins with an overview of vector analysis, linear algebra concentrating on using matrices to solve systems of equations, and the diagonalization of matrices, and complex numbers. It then moves into a study of differential equations, shedding light on the solutions of differential equations (first order, second and higher orders) with applications. The course will discuss Laplace transforms and Fourier Series and Fourier Transforms with applications in solving initial value problems. MATH 231: Probability and Statistics for Engineers (3 Cr. Hrs.) This course familiarizes students with descriptive statistics, probability basics, random variables, special discrete random variables, and various distributions: normal, Student's t, Chi-square, and Fisher's F. It includes a discussion of inference about one mean, one proportion, difference between two means and difference between two proportions and the ratio of two variances, large and small samples, paired and independent samples. The MINITAB statistical software package will be used; there will also be an introduction to the use of SPSS. IC 101: Intercultural Communication (3 Cr. Hrs.) This course is designed to provide prospective students (whose majors have an international flavor) with tools that offer powerful possibilities for improving the communication process. We will examine the process of sending and receiving messages between people whose cultural background could lead them to interpret verbal and nonverbal signs differently. We will learn about the diversity of these cultural differences and at the same time learn how we might overcome them. Our efforts to recognize and surmount cultural differences will hopefully open up business opportunities throughout the world and maximize the contribution of all the employees in a diverse workforce. SFTS 101: SOFT SKILLS (3 Cr. Hrs.) This course is designed to help develop strong oral and written communication skills. The student will be given opportunities to practice writing and editing professional correspondence and technical reports. Additionally, the student will compose and deliver oral presentations. Assignments will include the use of inductive and deductive approaches to conveying a variety of messages. The course emphasis the use of software tools to prepare presentations, stress management, confidence, and sensitivity to others. It also stresses on resume writing and conducting interviews. NE 101: National Education (3 Cr. Hrs.) In a context of striving towards democracy like the one Jordan enjoys today, the meaning and practice of active and responsible citizenship becomes more crucial. It is often argued that democracy requires “democrats” to flourish, and become well established. Democrats are those women and men who recognize pluralism, inclusion, positive engagement, and participation as the main values that govern their interaction with the state as citizens and with each other as diverse people of different interests. In this course you will be able to understand your rights and responsibilities as Jordanian citizen, expand your knowledge about the frameworks, and processes that regulates citizen-state relationships as will as the basic necessary skills for you to practice your citizenship rights in a civic manner. ENRE 211 Electric circuits I: (4 Cr. Hrs.) Circuit variables: current, voltages, power. Models. KCL and KVL. Two-terminal elements. Calculation of currents and voltages in simple circuits. Resistors. Sources. Capacitors. Inductors. Thevenin's and Norton's theorems. Maximum power transfer. Two-ports. Controlled sources. Opamps. Graph theory. Set of independent voltages and currents. Nodal equations. Loop and mesh equations. RC, RL and RLC circuits. Differential equation solutions (homogeneous and nonhomogeneous). Periodic steady state response: simple RC and RL circuits. Phasor's calculus. Solving circuits with phasors
