| Course Code |
Course Name |
Credit hours |
Description |
| A0161201 |
English Communication Skills |
3 |
Grammar: question tags, modals, future forms, articles, adjectives, adverbs, if structures; vocabulary: relationships, work, activities, media, war, sport; writing skills: essay, notes, messages, application letters; basic and advanced reading skills; basic and advanced listening skills; verbal skills: oral presentations, arguments. |
| A0161301 |
National Education |
3 |
Concepts and terms; Geography of Jordan; contemporary political history of Jordan; Jordanian Society; Jordanian constitutional and democratic life; Jordanian national institutions; challenges facing Jordan; threats to civic life: fanaticism, extremism, terrorism, violence; corruption: definitions, types, causes, impact, and prevention. |
| A0161101 |
Arabic Communication Skills |
3 |
Language levels: phonological level, grammatical level, rhetorical level, orthographic level, comprehension and speaking; grammar exercises, nominal sentences, verbal sentences, kana and its sisters, Inna and its sisters, dual, masculine plural, feminine plural, indeclinable nouns, vocative, appositives; exercises in morphology, present participle, and past participle; spelling and punctuation, dictionaries, listening and speaking. |
| A0161112 |
Leadership and Societal Responsibility |
1 |
This course deals with prominent titles related to leadership, such as: the meaning of leadership, the vocabulary that falls under the term, leadership styles, leadership and social responsibility, change management and strategies, building an effective team, the leader and managing diversity, how to discover future leaders and support them, and women leaders. |
| A0161113 |
Life Skills |
1 |
This course deals with the vital interest of the individual on the individual and collective level. It is like a passport to the success of individuals and helps them understand their personal competencies. It discusses the meaning of skills, their levels, characteristics and importance, communication skill and communication, and trains them on self-skills such as the skill of time management, organizing and defining it, and providing examples of its fields of application and activities. carried out by the students themselves. It also deals with thinking skills, its importance, education, and forms such as problem-solving and decision-making as forms of complex thinking or its strategies. The course also deals with training students on methods of dialogue and exchange of views as an entry point to resolving differences and mitigating frictions when we witness the openness of societies, correct study skills, family success and conservatism. |
| A0161401 |
Military Sciences |
3 |
The establishment and development of the Hashemite Kingdom of Jordan; the history of the Arab Legion; peacekeeping troops; preparing the nation for defense and liberation. |
| A0161111 |
Entrepreneurship and Innovation |
1 |
Economic science definition: its objectives and the economic problem; The relation between the economic science and other sciences; Economic analysis methods; Production possibilities curve; National income accounts; Consumption; Investment; Saving; Unemployment; Inflation; Money and Banking; Financial and monetary policy and its role in dealing with the imbalanced economy through these policies; Economic development in terms of importance and objectives and economic planning to achieve such objectives; Demand and supply theory and consumer equilibrium; Cost and production theory; Producer equilibrium in different markets. |
| Course Code |
Course Name |
Credit hours |
Description |
| A0161501 |
Islamic Culture |
3 |
Definition of the culture, characteristics of the Islamic culture, Islamic culture and other cultures; the sources of Islamic culture: The Holy Quran, Sunna, the Arabic language, history of Islam; fields of Islamic culture: faith, worship, morals; challenges facing the Islamic culture: orientalism, globalization, secularism; young people and the impacts of foreign cultures, women and Islam, Islam and terrorism. |
| A0161701 |
History of Jordan and Palestine |
3 |
The geography of Jordan and Palestine, Jordan and Palestine in ancient times, general historical look, Jordan, and Palestine in the Mamluk era, Jordan, and Palestine during the First World War (1914- 1918), Emirate of East Jordan (Transjordan), constitutional and legislative life in Jordan, Palestine under the British Mandate, and Jordanian-Palestinian relations, Jerusalem, historical status. |
| A0161703 |
Archaeology and Tourism in Jordan |
3 |
Tourism definition; Classification of Tourism; The difference between tourist and other traveler?s concepts, Travel types, The definition of Archaeology and archaeological sites: Archaeological surveys and excavations; Documentation; Jordan through the ages; Components of tourism in Jordan; Elements of tourist attractions in Jordan: Archeological sites, Natural sites, Natural reserves, Forests; Tourist movement and types in Jordan; Economical impact of tourism in Jordan. |
| A0161601 |
Contemporary Issues |
3 |
Identify the most important contemporary local, national and regional issues, the most prominent contemporary challenges and their questions from development, youth, extremism, globalization, culture and identity; Jerusalem and its central position, the Arab-Israeli conflict |
| A0161802 |
Development and Environment |
3 |
The course provides awareness and insight into the environmental issue, its vocabulary, the human relationship with the ecosystem, and environmental hazards to avoid. It also works to develop students' understanding and awareness of basic ecological concepts, and to reinforce their attitudes and values, in order to practice solving environmental problems. And linking it to comprehensive development and its relationship to water, food and energy security. |
| A0411601 |
Legal Education and Human Rights |
3 |
This course identifying the basic concepts of human rights in an analytical way, and then realistic clarify of the international & regional means dealing with human rights such as treaties, recommendations and international means that are in the process of formation, such imperative rules & customs, this course also address realistically the content of human rights and the rights of the first generation such as right of living. The second-generation rights such as the right to work and third-generation rights such as the right of environment. International ways to protect human rights in general. In addition, the extent to which the Jordanian constitution is compatible with international human rights standards. |
| A0161901 |
Media and Public Relations |
3 |
The nexus between media and society in terms of the social, political, economic and cultural power of the media, the role of the media in giving people the opportunity to express their opinions and promote international relations. Communication and public relations, communication and its types, levels, forms, properties, fields, activities, physical and nonphysical (symbolic) environment, and obstacles to the communicative process. Public relations: its beginnings, development, principles, bases, importance, functions, planning, activities. |
| Course Code |
Course Name |
Credit hours |
Description |
| A0871103 |
Principles of Renewable Energy |
3 |
Introduction to renewable Energy include Photovoltaic, Wind power, Micro hydropower, Biomass energy, Waste power, Solar thermal power, Geothermal power, Ocean energy (tidal, tide-flow and wave), Ocean energy (OTEC), , Comparison of characteristics and cost of renewables. How we can use the sun, wind, biomass, geothermal resources, and water to generate more sustainable energy. It explains the fundamentals of energy, including the transfer of energy, as well as the limitations of natural resources. Starting with solar power, the text illustrates how energy from the sun is transferred and stored; used for heating, cooling, and lighting; collected and concentrated; and converted into electricity |
| A0591111 |
Digital Literacy |
3 |
Digital Literacy is a concept that describes how technology and the Internet are shaping the way people interact and how they affect us as individuals and as a society. This course educate students on the uses of digital technologies, the dangers of digital technology and the need to build a culture of ethical use of the Internet and introduce the concept of responsible freedom. |
| A1321100 |
Sport and Health |
3 |
Defining health and fitness: physical education, health education; the cognitive, emotional, skill-oriented, and social goals of physical education; the history of physical education: ancient, medieval, and modern ages, the Olympics, Athletics in Jordan: nutrition and exercising; athletic injuries: bone, joint , muscle, skin injuries; special exercises for figure deformation; diseases related to lack of exercise: diabetes, obesity, being underweight, back pain, cancer; hooliganism: causes and recommended solutions for hooliganism. |
| A0612303 |
Society Health |
3 |
The course aims to provide students with the basic principles that enhance the concept of health and health prevention in its various physical, psychological and social aspects. The student will also be provided with information that helps individuals realize their health needs in the context of the culture and values ??systems they live in and how to meet these needs, which is known as improving health and quality of life. |
| A0161602 |
Critical Thinking Skills |
3 |
The concept of critical thinking, its components; characteristics of critical thinking individuals; Critical thinking skills: the skill of interpretation, analysis, evaluation, inference, expectation, prediction; Stages of critical thinking: Motivation, searching for information, linking information, evaluation, expression, and integration |
| Course Code |
Course Name |
Credit hours |
Description |
| A0111203 |
General Physics Lab. |
1 |
A laboratory courses for Engineers covering the fundamental principles of physics to reinforce physics concepts through experimental approaches and applying basic measurement techniques in order to help students to understand phenomena related to his study and encounter in his daily life using. Experimental error and data analysis, Measurements, Force Table, Newton?s Second Law, Friction, Motion in One and Two Dimensions, Work and Energy, Simple Harmonic Motion (Simple Pendulum), Simple Harmonic Motion (Spring Mass system) Ohm?s Law, and Kirchhoff?s Law. |
| A0833101 |
Numerical Analysis |
3 |
General numerical methods: equation solving via iteration, interpolation; numerical integration, and numerical differentiation; numerical methods in linear algebra, Gauss elimination, least squares method, numerical methods for differential equations. |
| A0112101 |
Linear Algebra |
3 |
Systems of linear equations: Homogeneous and non-homogeneous systems ; Matrices: operations on matrices ; Determinants: Operations on Determinates ; Vector spaces ; Method for solving systems of linear equations: Case study ; Eigenvalues and Eigenvectors ; Error norms of vector and matrix ; Applications using software packages. |
| A0111101 |
Mathematics (1) |
3 |
Introduction to Calculus; The rate of change of a function; Limits; Derivatives of algebraic functions and their applications; Integration; Application of the definite integral.
|
| A0111201 |
General Physics (1) |
3 |
Introduction to Physics; Measurement and standards; Physical quantities; Vectors Addition and multiplication of vectors; Motion in straight line: displacement velocity, acceleration , finding the motion of an object, free fall, and vertical jumping; Motion in two dimensions Projectile in Biomechanics; Newton?s laws: Static C.G., Levers in the body, muscles and, and jaws of animals; Collisions
|
| A0111301 |
General Chemistry |
3 |
"Chemistry and the atomic/ molecular view of matter; scientific measurements elements compounds, and the periodic table; the mole and stoichiometry; molecular view of reactions in aqueous solutions: doublereplacement reaction, redox reaction the quantum mechanical atom: electron configuration, properties of elements; basics of chemical bonding: ionic bonds, covalent bonds, intermolecular forces; chemical kinetics: rates laws; acids and bases: strong acids, weak acids, buffers.
"
|
| A0811201 |
Computer Skills (Engineering) |
3 |
The Basic Concepts of Programming using C++ language: C++ Programming; Controls Structures; Functions; Arrays; Pointers; An introduction to Classes and Objects. |
| A0832101 |
Differential Equations |
3 |
Different methods of solving ordinary differential equations of first, second and higher-order DEs. Using Laplace transform and Power series method for solving Des. Modeling of some engineering, physical, and social problems will be given. |
| A0831201 |
Engineering Drawing |
2 |
Use of instruments; lettering; Drawing of basic views and projection method; orthographic; isometric drawing and sketching; sectional views; computer aided design applications using AutoCAD (2D & 3D) in all engineering aspects. |
| A0812201 |
Communications Skills & Professional Ethics |
3 |
"Basics of Communication Skills: Communication Process, Verbal and Non-Verbal Communication, Barriers to Communication; Listening Skills, Types of Listening, Speaking Skills: Strategies for Developing Speaking Skills, types of Speaking, Effective Presentation Strategies; Reading Skills: Reading Techniques, Reading Comprehension; Writing Skills: Attributes of Technical Writing, Benefits of Technical Writing, Types of Writing, Research Papers, Technical Reports, Job Application. |
| A0811202 |
Engineering Workshops |
1 |
Workplace safety and use of tools; basic skills of measurements; basic skills of hand filing, welding, carpentry, sheet metal fabrication, and household electric circuits. |
| A0111102 |
Mathematics (2) |
3 |
The course includes: Applications of the Definite Integral; Techniques of Integration; Hyperbolic Functions; Inverse Trigonometric Functions; Improper Integrals; Polar coordinates and its applications; Taylor?s Formula; Sequences and Infinite Series and Applications with Emphasis on engineering models |
| A0111202 |
General Physics (2) |
3 |
The course includes: electric charge and electric field, Gauss?s law, electric potential, capacitance and dielectrics, current, resistance, and electromotive force, magnetic field, and magnetic forces, sources of magnetic field, electromagnetic induction, inductance, alternating current, electromagnetic waves. |
| A0832102 |
Engineering Statistics |
3 |
Applications of statistics in engineering; Introduction to descriptive statistics, presentation and treatment of data; introduction to probability theory and probability distribution (discrete and continuous); counting techniques; sampling theory; statistical estimation; statistical hypothesis testing; correlation; finding regression equations and regression analysis. |
| Course Code |
Course Name |
Credit hours |
Description |
| A0834306 |
Medical Sensors and Biotelemetry Lab . |
1 |
Introduction to medical sensors and medical measurement system using
LabView and ELVIS II kit; sensing and detection of various physiological variables such as: temperature, force, blood pressure, heart rate, and heart sounds; signal modulation and demodulation techniques (AM, FM) transmitter and receiver; signal sampling and reconstruction; telemetry applications in health care. |
| A0835501 |
Selected Topics in Medical Engineering |
3 |
Current trends and developments in the field of biomedical engineering;
contemporary issue in biomedical engineering; each semester will cover one topic which will be announced for students at the registration time. |
| A0833302 |
Simulation Lab. for Medical Engineering |
1 |
This Lab provides a set of experiments using NI- Multisim and LabVIEW that aim to enhance student?s skills in simulation field; These simulation software help to design, build and analyze some biomedical electronic circuits virtually as well as mathematical models; they can also help students to implement their projects by converting the simulated circuit schematic to Printed Circuit Board (PCB) or by dealing with some Data Acquisition Systems (DAQ). |
| A0833301 |
Medical Electronics |
3 |
Introduction to Op-Amp; Basic Op-Amp Circuits: Summing Amplifiers, Comparators, Integrators, Differentiators, Biomedical Applications; Special purpose op-amp applications: Differential amplifier, Instrumentation amplifier, Isolation Amplifier, Converters, Biomedical Applications; Active Filters: Low, high, band pass and band stop active filters, filters in biomedical applications; Oscillators: Principles of Oscillators, Phase Shift Oscillator, Wien Bridge Oscillator, Colpitts Oscillators and Hartly Oscillator. Power Amplifiers and their classification, Power Amplifiers in biomedical applications. |
| A0835302 |
Medical Technology Management |
2 |
Basic concepts of the management of medical technology in hospital
settings including safety considerations, codes, standards, regulations; procedures in planning, acquisition, controlling, leading and supervision; other medical engineering practices in medical engineering departments and healthcare facilities. |
| A0835402 |
Medical Digital Image Processing |
3 |
The course begins with low level processing and works its way up to the beginnings of image interpretation; This course explains the two-dimensional discrete systems, design of two-dimensional filters, digital image processing, human perception of images, color models, sampling and data compression, picture enhancement, restoration and analysis, hardware and software implementation. Students will be required to apply their understanding of the concepts involved through the use of suitable package (e.g. Matlab). |
| A0835701 |
Graduation Project (1) |
1 |
Each student (or a team of students) may choose from a list of research projects, and is/are supervised by a faculty member in the department. Project (1), which represents the first phase of the graduation project, requires gathering the practical and theoretical resources needed for the completion of graduation project (2). |
| A0834602 |
Biomechanics and Rehabilitation Lab . |
1 |
Experimental techniques for determining stress-strain curve; vibration
analysis; measurement of young?s modulus of materials that are used in artificial joints and medical implants in general; fatigue test of biocompatible materials; Brinell hardness test for biocompatible materials; Gait analysis; for the rehabilitation part: Obtaining the significant rehabilitation body data (body surface area, body density , body volume , body %fat and blood volume) also taking blood pressure, pulse rate and breathing rate in rest case and action case, Determination the Radiated Heat Diathermy From Barred Arm , Determination the Subcutaneous Muscle Temp; finally Determination of a Body mass lost after Hard Exercise and Distinguish between different methods of mass loosing. |
| A0835401 |
Medical Imaging Systems |
3 |
Introduction to medical imaging systems; properties and nature of
produced image of particular imaging system; medical imaging systems are: X-ray, CT-scan, imaging by radioisotopes and gamma camera, projection Positron Emission Tomography (PET), ultrasound imaging systems, Magnetic Resonance Imaging (MRI). |
| A0834301 |
Computer Applications in ME |
3 |
This course gives an introduction to use MATLAB and LabView software
in engineering programming; It will cover matrix generation, array operations and solving Linear equations at the beginning, then it will deal with liner data and apply data interpolation using different methods; Moreover, this course cover the methods used for medical signal processing, and medical image processing; It will explain the main components of Data acquisition (DAQ) system and Exploring the DAQ toolbox, then connect it with LabView software. |
| A0834302 |
Medical Instrumentation (1) |
3 |
Introduction to electrical measurements and instrumentation; basic concepts
in medical instrumentation; bio-potential electrodes; medical signals and measurements (ECG, EEG, EMG, EOG and ENG); blood pressure and flow measurements and instrumentation; heart sounds; cardiac output measurement techniques. |
| A0834601 |
Medical Rehabilitation Engineering |
3 |
Introduction to medical rehabilitation engineering; Seating biomechanics
and systems; Tissue integrity management: Pressure ulcer staging systems, support-surface classification; Wheelchairs: Manual wheelchairs, electric power wheelchairs, multifunctional wheelchair, wheelchair standards. Functional electrical stimulation: Clinical considerations of FES, electrodes, clinical application of FES, FES for foot drop, FES for walking, FES for upper extremity function, FES for exercise, spinal cord stimulation, deep brain stimulation, wearable technology; Physiotherapy instrumentation; Wheelchair transportation safety; Aids for people who are blind or visually impaired; Maximizing participation for people with hearing loss; Basic principles of alternative telecommunication, basic methods used in assessing a person for computer access and web accessibility; Adaptive sports and recreation technology. |
| A0833601 |
Biomechanics (2) |
3 |
Deformable body mechanics; stress, strain, Axial loading, Material properties obtained from tensile tests, elastic deformation, plastics deformation, hooke?s law; Mohr?s circle, Torsion, bending, Viscoelasticity, empirical models of Viscoelasticity, common characteristic of biological tissues; biomechanics of musculoskeletal system; intrinsic mechanical properties of the blood vessels; introduction to finite element analysis (FEA), Using FEA for the simulation of artificial joint implants using SolidWorks. |
| A0834305 |
Medical Instrumentation Lab. |
1 |
Medical signal conditioning and processing: signal calibration, signal
amplification, filtration, medical signal measurements (ECG, EEG, EMG); heart rate measurement (visual and sound indicators); analogue to digital converter; safety analyzer; interfacing with computers |
| A0834303 |
Medical Sensors and Biotelemetry |
3 |
Principles of biomedical sensor design; biomedical sensors charactristics;
biomedical sensors applications in medicine and biology: resistive, inductive, magnetic, ultrasonic, chemical, and optical sensors; biosensors; introduction to biotelemetry: analog and pulse modulation, demodulation techniques; basic telecommunication circuits designed for transmission of biomedical signals; transmitters and receivers; applications of telemedicine in health care. |
| A0835702 |
Graduation Project (2) |
2 |
The student implements and finalizes the work described in project (1).
After full implementation of the project?s goals, the student must present a comprehensive report on the entire graduation project to an examining committee. |
| A0833602 |
Biomaterials |
2 |
An introduction about Biomaterials; it demonstrates the bulk and surface properties of materials; It deals with many details about the following engineered biomaterials: metals, polymers, hydrogels, ceramics, glasses, and glass-ceramics, composites, Bioresorbable and bioerodible materials, natural materials, and their use in implant technology; It explains the tissue engineering subject, host reaction to biomaterials and testing biomaterials; It clarifies many applications of materials in medicine and dentistry. |
| A0834304 |
Medical Instrumentation (2) |
3 |
Respiratory system instrumentation; thermometry; audiometry; electronic patient monitoring systems; therapeutic and prosthetic devices; electrosurgery and operating room equipment; sterilization; chemical biosensors and clinical laboratory equipment; microprocessor interfacing and computer based instrumentation. |
| A0834701 |
Field Training |
3 |
Practical experience to be gained through working for eight continuous
weeks in an accredited establishment. |
| A0832601 |
Biomechanics (1) |
3 |
Introduction to biomechanics, tensile, compressive and frictional forces, force and vectors, momentum and torque, analysis of systems in equilibrium, application of statistic to biomechanics, center of gravity and centroids, Introduction to deformable body mechanics. |
| A0835301 |
Design Concepts in Biomedical Engineering |
3 |
Engineering design procedures and relevant information necessary for
designing biomedical devices; design concepts of projects in the biomedical engineering field: presentation skills, communication skills, teamwork, concept generation and documentation specifications, evaluation, design validation and clinical trials; regulations and ethics in biomedical engineering design. |
| Course Code |
Course Name |
Credit hours |
Description |
| A0835403 |
Bioinformatics |
3 |
This course covers the sources of health information systems and their relationto health agencies; A study is made of the origin and purpose, content, assembly, analysis and use of medical records; The course will introduce software applications used in HCIS; The student will develop an understanding of the implications of integrated versus interfacing disparate HCIS application, database management and patient privacy issues; The course will examine emerging technology in the areas of health care, access to Electronic Medical Records, and Regional Health Information Organizations; Methods of compiling, numbering, filing and retention of health information. |
| A0835601 |
Prosthetic and Artificial Organs |
3 |
Extracorporeal devices: artificial kidney: artificial heart; artificial liver; artificial blood; artificial pancreas; artificial knee implants, artificial hip implants, artificial disc implant, upper and lower extremities mechanics; essential parts in artificial limbs. |
| A0834603 |
Fluid Mechanics for ME |
3 |
Fundamental laws of statics, and dynamics applied to fluid; characteristics
of fluids; conservation of mass, momentum, and energy as applied to fluids; laminar and turbulent flows; shear stress; applications of fluid mechanics to biological systems: human circulatory, blood flow in heart, arteries, veins. Respiratory systems, including air flow in the lugs, |
| A0813403 |
Microprocessors and Embedded Systems |
3 |
Introduction to microprocessor and microcomputer; the 8086/8088 microprocessors and their architecture; addressing modes; instruction set; programming the microprocessor using assembly languages; introduction to embedded systems; introducing PIC 16 series: architecture overview of PIC16F84A, the 16F84A memory; building assembly programs: introduction to assemblers, PIC 16 Series instruction set; parallel ports; interrupts; counters and timers. |
| A0834604 |
Tissue Engineering |
3 |
Introduction in tissue engineering, fundamental principles of tissue
engineering, cell sources for tissue engineering, biomaterials and medical scaffolds for tissue engineering, growth factors and cell signalling in tissue engineering, bioreactor systems and design, cardiovascular tissue engineering, connective tissue engineering, neural tissue engineering, ethical issues and considerations for tissue engineering. |
| A0835303 |
Laboratory Instrumentation and Medical Laser |
3 |
Study of the scientific bases and design strategies for preparatory and analytical laboratory instrumentation, blood cold chain laboratory equipment, histology and histopathology equipment, hematology analyzers, electro-analytical chemistry and blood gas instrumentation. Basic physics of lasers. Laser-tissue interaction. Types of laser used in medicine. Lasers in diagnostics. Laser therapy and surgery: Laser therapy in ophthalmology; Lasers in dermatology; Lasers in cardiology; Lasers in neurology; Laser safety: Regulations, standards, and guidelines for practice. |
| A0835304 |
Implanted Medical Devices |
3 |
The purpose of this course is for students to gain knowledge and experience in designing medical implants. Topics include the principles of medical device and implant design; design parameters and specifications; design for an assistive product, engineering analysis; preclinical testing for safety and efficacy, risk/benefit ratio assessment, evaluation of clinical performance and design of clinical trials. |
| A0835602 |
Nanotechnology in ME |
3 |
Introduction to nanotechnology, physics in nanotechnology, synthesis of nanomaterials, characterisation of nanomaterials, bio-nanomaterials and nanodevices, nanotechnology applications in biology and medicine. |
| A0834401 |
Data Mining and Pattern Recognition |
3 |
This course is focuses on collecting data and extraction of useful information from them. It explains methods used in: data visualization, data analysis and uncertainty. It gives an overview of data mining algorithms, models and patterns, it includes generative methods such as those based on Bayes decision theory and related techniques of parameter estimation and density estimation. |
| Course Code |
Course Name |
Credit hours |
Description |
| A0872304 |
Electric Circuits Lab. |
1 |
DC Circuits: Kirchoff?s Voltage and Current Laws, Network theorems, Maximum Power Transfer; Transient Circuits: RL, RC, RLC; Resonant Circuits; Magnetically Coupled Circuits; Two-Port Networks. |
| A0822502 |
Electronics |
3 |
Introduction to Electronics; Semiconductors: Intrinsic and Extrinsic Semiconductors, Electrical Properties of Semiconductors, Diffusion Process in Semiconductors; The PN Junction Diode: Forward, Reverse Biased Junction, V/I Static Characteristics, Diode Types: Zener, LED, and Photodiode; Diode Applications: Rectification, Clipper, and Clamper Circuits, Voltage Multipliers; Bipolar Junction Transistors: CB and CE Characteristics, DC Biasing and Analysis; BJT Applications: BJT as a Switch, and Amplifier; Field-Effect Transistor: V/I Characteristics of JFET and MOSFET, DC Biasing and Analysis; Biasing of Transistor (BJT and FET); Single-Stage Amplifier; Cascaded BJT and FET Amplifiers; Composite Transistor Stages; Operational Amplifiers and Applications; Differential Amplifier; Operational Amplifier Architectures; Frequency Response of Amplifiers; Negative-Feedback Amplifiers. |
| A0823401 |
Signals and Systems |
3 |
Classification of signals, basic concepts of sampling, basic continuous-time and discrete-time signals;signal processing using MATLAB; classification of systems, properties of continuous-time LTI systems, proprieties of discrete-time LTI systems, convolution processes, Laplace transform, transfer function; Fourier series; Fourier transform and applications, power spectral density, frequency response. |
| A0812401 |
Digital Logic Circuits |
3 |
Numbering System and Information Representation: Arithmetic Operations, Decimal and Alphanumeric Codes, Binary Logic; Boolean Algebra: Identities, Functions and Manipulation, Standard Forms, Simplification, Logic Gates, , Integrated Circuits; Combinational Logic Design: Circuits (Gate Level), Design Hierarchy and Procedures, Computer-Aided Design, Combinational Two-Level and Multi-Level Implementations, Arithmetic (Add, Subtract, Multiply) and Other Popular Modules (Multiplexers, Encoders, Decoders); Sequential Logic Design: Latches, Flip-Flops, State Machine Design and Minimization (Mealy Digital and Moore Models); Design Problems. |
| A0812402 |
Digital Logic Circuits Lab. |
1 |
The Digital Logic Circuits laboratory develops students with the ability of identifying the digital logic gates and combinational logic circuits such as adders, decoders. Students are also conducting experiment with memory elements (flip-flops) and sequential logic circuits |
| A0823502 |
Electronics Lab. |
1 |
Diode characteristics: clipping and clamping circuits, half-wave and full-wave rectification,Zener diode, and voltage regulation; BJT characteristics and biasing circuits; FET characteristics and biasing circuits; transistor amplifiers;frequency response of single-stage and multi-stage transistor amplifiers,transfer characteristics of cascade amplifier;differential amplifier;operational amplifiers and applications; oscillators; passive and active filters. |
| A0823503 |
Digital Electronics |
3 |
Digital signals and systems, pulse waveforms, switching circuits, pulse distortion, periodic pulse waveforms; switching devices, diodes and transistors as switching devices, analysis of switching circuits and switching times;logic technologies and families, digital integrated circuits terminology, DTL, RTL and TTL family, open collector, tri-state, ECL family, MOS technology, operation and types, MOS inverter, NMOS, PMOS, CMOS, dynamic MOS, CMOS transmission circuits, interfacing between families and their problems;multivibraters circuits, monostables, astables, schmitt trigger, bistables, 555 IC timer; memory elements and types, programmable logic devices;analog to digital converter and digital to analog converter. |
| A0813201 |
Engineering Economy and Management |
3 |
Engineering Project Development; Decision Making; Basic Concepts of Capital Investment: Formulas and Applications, Rates of Return, Economic Feasibility of Projects (Net Future Value, Net Present Value, and Equivalent Uniform Cash Flow); Comparison of Mutually Exclusive Proposals; Benefit-Cost Ratio Method; Depreciation; Corporate Taxation; Resource Allocation. basics of engineering mangment ,planing and organization of engineering project ,and project time schulding and mangment |
| A0823402 |
Communications Systems |
3 |
Review of Fourier transforms; spectra, filters, and Hilbert transform;
analog modulation techniques: AM, FM, and PM; band-pass noise representation: noise performance of analog modulation; FDM; Nyquist criteria; matched filter and noise performance; inter symbol interference (ISI) and ways to address this problem; binary band-pass transmission: BASK, BFSK, BPSK, and DPSK; geometric representation of signals: orthogonal signals, correlation receivers and signal constellations; M-ary band-pass digital transmission: ASK, PSK, FSK, and QAM; noise performance and bandwidth efficiency; synchronization. |
| A0824403 |
Digital Signal Processing |
3 |
Sampling and aliasing; review of discrete time signals and systems; z-transform and its application to the analysis of LTI systems; digital signal processing (DSP) using MATLAB; discrete-time Fourier transform (DTFT); frequency response of LTI systems; discrete Fourier transform (DFT); structures for FIR and IIR filters; introduction to the design of digital filters; applications of DSP: speech processing and image processing. |
| A1162204 |
Physiology for Medical Engineering Students |
3 |
|
| A0823504 |
Digital Electronics Lab. |
1 |
Characteristics of switching devices, characteristics of logic gates: RTL, TTL, and COMS; interfacing of TTL & CMOS gates and their problems; multivibrators circuit:monostables, astables, schmitt trigger, and bistables; 555 IC timer;DACand ADC circuits. |
| A1161108 |
Anatomy |
3 |
|
| A0872303 |
Electrical Circuits |
3 |
"Introduction to electrical engineering. Fundamentals of electric circuits, |
| A0873501 |
Machines and Electrical Power |
3 |
Principles of electromagnetic circuit; single-phase transformers: ideal practical transformer, equivalent circuit, auto-transformer; three-phase transformer: types, connection; AC machinery fundamentals: principle of work, rotating magnetic field; three phase induction motors: principle of work, properties an performance, starting, speed control; synchronous machines: construction, internal generated voltage, equivalent circuit; operation modes: alone, parallel; synchronous motors: steady state operation, starting. |
| A0874501 |
Control Systems |
3 |
Concept of Control Systems; Open-loop and Closed-loop Systems; Mathematical Modeling of Physical Systems; Transfer Function and System Modeling Diagrams; Response Characteristics of Control Systems; Specifications of System Performance; Stability Analysis of Linear Control Systems; Routh?s Stability Criterion; Time-domain Analysis of Control Systems; Design of Controllers and Compensators. |
| Course Code |
Course Name |
Credit hours |
Description |
| A0161200 |
Remedial English Language |
3 |
Grammar: auxiliary verbs, tenses (past, present, future) Vocabulary: friendship, communication, IT, TV shows, media, houses, places description, compound nouns, free time activities, books and movies description, food, dinning out. Variety of skills: paragraph writing, verifying formal and informal letters, writing unofficial emails, ways of using punctuation, upper case letters and conjunctions, outlining main ideas and details, inferring conclusions and impeded meanings, determining author?s perspectives, presentations, argumentation and persuasion, agreeing and disagreeing expressions, making comparisons, narrating events, expressing opinions, making official phone calls, ordering food, correct pronunciation. |
| A0331700 |
Remedial Computer Skills |
3 |
Introduction to basic computer hardware and software; copyrights; Windows operating system; Microsoft Office: Word, Excel, Power point, Access; Introduction to Internet. |
| A0161100 |
Remedial Arabic Language |
3 |
Language level and definition, speaking and comprehension texts, syntax exercises, Nominal Sentence, safe feminine plural, safe masculine plural, singularity, auxiliaries, duality, numbers, subordinates, punctuations, morphological exercise, dictation issues, Nunnation. |
