Course Code |
Course Name |
Credit Hours |
Prerequests |
10211101
|
Calculus I
|
3 |
|
This course covers the concepts of function, inverse function, models, limits, continuity and derivatives, the differentiation rules and their applications, related rates, linear approximation, and hyperbolic functions. The mean value theorem, indeterminate forms, L' Hospital's rule, curve sketching, and optimization problems. |
10211102
|
Calculus II
|
3 |
|
Definite and Indefinite integrals. The Fundamental Theorem of Calculus. The Substitution Rule. Applications of integration (Areas and volumes), Average Value of a Function. Techniques of Integration (Integration by parts, Trigonometric Integrals, Trigonometric Substitution, Integration by Partial Fractions, Improper Integrals). Applications of integration (Arc Length, Area of a Surface). Infinite sequences and series (The Integral Test and Estimates of Sums, The Comparison Tests, Alternating Series, Absolute Convergence and the Ratio and Root Tests, Power Series, Taylor and Maclaurin Series) |
10211201
|
Calculus III
|
3 |
|
Topics covered in this course include: parametric equations and polar coordinates; vectors in R2 and R3 & surfaces; vector-valued functions; partial differentiation with applications; multiple integrals. |
10211202
|
Engineering Mathematics
|
3 |
|
Classification and solution of first order equation with application, higher order and solution , power series and solution also the student will learn the fundamental of partial differential equation, method of solution of first and second order nonlinear partial differential equation |
10216230
|
Probability and Statistics for Engineers
|
3 |
|
Topics covered in this course include set theory, relative frequency and probability, joint probability and independent events, random variables, distribution functions, density functions, Gaussian random variables, multiple random variables, joint-distribution functions, joint-density functions, conditional distribution functions, central limit theorem, random processes (stationary and independent), correlation functions, covariance, Gaussian random processes, spectral characteristics of random processes, the power density spectrum, cross-power spectrum, and the relation between correlation functions and power density spectra. |
10221101
|
General Physics I
|
3 |
|
This course covers the following topics: motion in one and more dimensions, the laws of motion with an application of Newton?s laws, vector quantities, work and mechanical energy, linear momentum and collisions, and rotational dynamics |
10221102
|
General Physics II
|
3 |
|
This course is a study of the following topics: electric charges; forces and fields; electric potential and electric potential energy; electrical capacitance electric elements like capacitors, resistors, and conductors; electric current and direct-current circuits; magnetic fields; magnetic force; induction; and RC and RL circuits. |
10221115
|
General Physics Lab. for Engineering Students
|
1 |
|
This lab is offered to non-physics students. In this lab, experiments related to topics mostly covered in General Physics I (10221101) and General Physics II (10221102) are conducted. These include experiments on CRO and Ohm?s law potentiometer; Wheatstone bridge (AC and DC); capacitance and RC circuit; Joule?s constant; acceleration and speed of sound; viscosity; Newton?s 2nd law; simple harmonic motion; Boyle?s law; and Archimedes? principle. |
10231101
|
General Chemistry 1
|
3 |
|
A compulsory 3-lecture course that is mainly designed to give students a knowledge of the most important chemical principles such as atomic structure and periodic table, mass relationships in chemical reactions, reactions in aqueous solutions, gases, thermo chemistry, quantum theory and the electronic structure of atoms, periodic relationships among the atoms, basic concepts of chemical bonding, molecular geometry and hybridization of atomic orbitals. |
10231107
|
General Chemistry 1 Lab.
|
1 |
|
A compulsory practical course, designed to introduce the students to various experimental practices used in general chemistry, such as accurate weighing, performing basic chemical methods such as filtration, titration and gravimetric analysis, make simple metathesis and redox reactions, calorimetry experiments and calculations. |
10601110
|
Statics
|
3 |
|
This course introduces the students to the fundamental concepts of vectors, equilibrium of force system for particles and rigid bodies. It also looks at the application of principles of statics to structures, axial force, shear and bending moments, friction, centroid, and moment of inertia |
10606102
|
Engineering Drawing
|
2 |
|
Developing the engineering student's ability to express his ideas through drawings, so that he can draw any design in a way that specialists can understand and manufacture, according to agreed standard standards regarding shape and designation. Manual techniques are covered in this course using only known drawing tools. |
10621100
|
Engineering Workshop 1
|
1 |
|
Development of basic skills in fields of manual sheet metal fabrication, welding processes, and household electric circuits. Students should perform in individual practical exercises. |
10621101
|
Engineering workshop 1 Practical
|
0 |
|
This is the practical part of the Engineering Workshop 1 (10621100) course. |
10621200
|
Engineering Workshop (2)
|
1 |
|
Theoretical and practical development of basic skills in the fields of metal machining, sand casting, metal forming and welding. Students should perform in individual practical exercises |
10621201
|
Engineering Workshop (2) Practical
|
0 |
|
This is the practical part of the Engineering Workshop 2 (10621200) course. |
10621210
|
Dynamics
|
3 |
|
Kinematics of particles, planer dynamic analysis of rigid bodies. Force and acceleration, work and energy, impulse and momentum. Introduction to vibrations. |
10621213
|
Mechanical Drawing
|
2 |
|
Auxiliary views. Temporary fasteners and springs; their construction and standards. Power screws and welded symbols. Dimensioning, tolerance, limits and fits using ISO system. Detail and working drawing. Assembly drawing. |
10621214
|
Strength of Materials
|
4 |
|
Introduction to mechanics of deformable bodies; concepts of stress and strain, classification of materials behavior, stress-strain relations and generalized Hook?s law. Applications to engineering problems involving members under axial loads, torsion of circular rods and tubes, bending and shear stresses in beams/members, combined loading and stress transformation. Stress in thin- and thick-walled cylinders, curved beams, shrink and press fits, stresses in rotating disks, contact stresses. Failure theories under static loading. |
10621261
|
Principles of Thermo-Fluids and Heat Transfer
|
3 |
|
This course looks at the basic principles, concepts and definitions of thermodynamics, the properties of pure substances, 1st and 2nd laws of thermodynamics, fluid mechanics and heat transfer, basic principles of fluid dynamics, conservation law, dimensional analysis and external and internal flow in pipes. |
10621310
|
Theory of Machines
|
3 |
|
Kinematic analysis of mechanisms. Velocity and acceleration polygons. Static and inertia force analysis of machinery. Dynamic analysis of cams, and flywheels. Balancing of machines. |
10621335
|
Engineering Materials for Mechatronics
|
2 |
|
Mechanical properties of metals. Strengthening mechanisms. Failure of solids; fracture, fatigue, and creep. Phase diagrams. Metal alloys and thermal processing of metal alloys. Introduction to corrosion. |
10621413
|
Applied Mathematics for Engineers
|
3 |
|
Series solutions of differential equations, special functions (Legendre, Frobenius, Bessel?). Fourier Series, integrals, and transforms. Partial differential equations. |
10621414
|
Mechanical Vibrations
|
3 |
|
Properties of oscillatory motion. Derivation of governing differential equations. Free and forced vibrations. Harmonically excited motion, rotating and reciprocating unbalance, support motion. Vibration isolation. Transient vibrations. Free and forced vibrations in multi-degrees-of-freedom systems. |
10621416
|
Mechanics of Machines and Vibrations Lab.
|
1 |
|
Practical experiments related to the given topics in the courses of vibrations, theory of machines and machine design. |
10621461
|
Thermo-Fluids and Heat Transfer Lab.
|
1 |
|
This course looks at experiments applied to heat transfer, thermodynamics and fluid mechanics. |
10626251
|
Engineering Numerical Analysis
|
3 |
|
Numerical analysis is concerned with finding numerical solutions to problems, especially those for which analytical solutions do not exist or are not readily obtainable. This course unit provides an introduction to the subject and treats the topics of solving nonlinear equations, both in one variable and in many variables, solving linear systems of equations and of approximating functions by polynomials. These topics are of great practical importance in science, engineering and finance, for example, and also have intrinsic mathematical interest. The course unit concentrates on theoretical analysis and on the development of practical algorithms |
10631207
|
Introduction to Engineering Management
|
3 |
|
This course covers the topics in Human resources Management, engineering code of ethics, technical reporting. Management core topics such as planning, organizing, leading, and controlling. It also covers essential topics in project management, financial management, and marketing management, which are essential for future engineering managers to lead in high impact technology-based projects. Serving to further broaden students' perspectives are discussion on web-enabled engineering applications and globalization as well as the impact of these emerging market forces on engineering enterprises and managerial functions in the new Millennium. |
10631301
|
Engineering Economy and Feasibility Studies
|
3 |
|
This course covers the fundamental tools and concepts of economical evaluation of business and engineering projects such as cash flow diagrams, discounted cash flow, break even and minimum cost analysis, present value, future value, net present value, interest rates, decision making analysis and depreciation. The course also covers fundamentals of feasibility studies such as: Terms of reference, Details and problems of the current system, Study methodology, possible solutions & recommendations including a description of the costs and benefits to the enterprise. |
10631340
|
Manufacturing Processes I
|
3 |
|
This course is a study of basic manufacturing processes including casting process, bulk deformation process, chip removal process, joining processes. The course also offers an introduction to numerical control machining. |
10636111
|
Computer Programming
|
3 |
|
Review of the methods of analysis and logical thinking to solve various issues, and students learn to find solutions using the flow diagram of the (flowcharts) and Zip Assistant (Pseudo code) and follow-up solutions to detect and correct logical errors. It also gives the student C++ language include input and output sentences, expressions, variables and constants, control sentences, redundancy and control, as well as matrices, functions, and indicators, also given an introduction to compositions, entities and structures. |
10636221
|
Digital Circuits Design 1
|
3 |
|
Boolean algebra, Number System, logic gates, Simplification, combinational logic circuit design. Combinational circuits, Sequential Circuits, flip-flops, counters, registers (serial, parallel, shift), state machines design. Synchronous and asynchronous systems. |
10636291
|
Digital Circuits design 1 Lab.
|
1 |
|
Introduction to TTL and CMOS circuits. IC characteristics. Boolean Function design and implementation. Seven segment display. Decoders, Shift registers, ROM, RAM, Monostable and astable multi-vibrators, and 555 timing timer. Sequential circuits design |
10636374
|
Microprocessor for Mechatronics (1)
|
3 |
|
History and development of The 80x86 microprocessors. The 80x86 architecture. The central processing unit. Memory addressing and data formats. Address/data and control buses. The CPU /Memory interface. The Instruction set, and addressing modes. Assembly language programming. |
10636476
|
Microprocessor for Mechatronics Lab.
|
1 |
|
Introduction to Programming the 8088/ 8086 kit. Writing practical assembly language programs. Interfacing experiments on peripherals with applications to DAC, RS232 communication, LED Matrix, LCD, ADC, DC motor, and stepper-motor. Practical project in the field of microprocessor interfacing. |
10641292
|
Electrical Circuits
|
3 |
|
Introduction, units, definitions, independent source, dependent source, ohm?s law, Kirochoffe?s laws, and division rule. Nodal analysis, Mesh Analysis, Linearity and superposition, Thevenin?s and Norton?s theorems. Inductance and capacitance. The sinusoidal steady-state response. The phase concept, and introduction to alternating current circuits, power conditions and three phase circuit analysis |
10641293
|
Electronics
|
3 |
|
Semiconductor materials. pn junction. pn junction diode. DC analysis and models. Zener diodes, Schottky diodes. Diode circuits: Rectifiers, regulators, clippers, clampers, and multiple diode circuits. BJT transistors: Basics, DC analysis, Biasing, and applications. BJT Amplifiers and its Characteristics: Common Collector, Common Base, and Common Emitter. The field-effect transistor: MOSFET and its DC analysis with applications |
10641294
|
Electrical and Electronic Circuits Lab.
|
1 |
|
Laboratory equipment. Ohm?s law, series-parallel resistances, Kirochoff?s laws, voltage and current divider rules, delta-wye transformations, Thevenin?s and Norton equivalents, superposition and reciprocal theorems, maximum power transfer. Three phase circuits |
10641391
|
Electrical Machines
|
3 |
|
Review of magnetic fields and circuits. Single and three phase transformers. Electromechanical energy conversion. DC-machines: DC-generators and DC-motors. Starting DC-motors and speed control. AC-machines: single and three phase induction motors. Three phase synchronous machines |
10641392
|
Electrical Machines Lab.
|
1 |
|
Laboratory experiments on single and three phase transformers. Electromechanical energy conversion, DC-machines: DC-generators and DC-motors, starting DC-motors and speed control, AC-machines: single and three phase induction motors. Three phase synchronous machines |
10641411
|
Power Electronics
|
3 |
|
Thyristors, Diac, Traiac and IGBT. Triggering circuits. Single and three phase rectifier circuits. Harmonic analysis of voltage and currents of the difference circuits. Voltage regulators. Commutation techniques. DC/DC-Choppers |
10651372
|
Mechatronics Programming
|
2 |
|
Introduction to MatLab programming language for matrix operations, and solution of linear equations. Programming in MATLAB (Programs and Functions m-files) and the software library of m-defined functions. Graphical representation of data structures and analysis of Mechatronics systems using SIMULINK Software. Build and analyze 3D Dynamic models and accomplish stress analysis using SolidWorks and Visual Nastran 4D and/or any other equivalent design software. |
10651462
|
Machine Elements Design
|
3 |
|
Transmission mechanisms and kinematics, types of joints, pulleys and belts, gears and gear trains, cams, clutches, brakes flywheels, bolts, shafts, bearings, keys and springs. |
10651471
|
Control Systems I
|
3 |
|
Open and closed loops (feedback) control systems. Modeling of physical systems: electrical, Mechanical, hydraulic and pneumatic systems. Linearization of nonlinear systems. System representations: System block diagrams and signal flow graphs. State variable models. Feedback control system characteristics. Performance of feedback control systems. Routh-Hurwitz stability. Steady state error coefficient. Rout locus Method. Introduction to frequency response. |
10651481
|
Transducers and Interfacing
|
3 |
|
Static, dynamic and statistical characteristics of measurement system elements. Loading effects in measurement systems. Sensing elements: Resistive, capacitive, inductive, electromagnetic, thermoelectric, elastic, piezoelectric and electrochemical sensing elements. Optical and ultrasonic measurement systems. Signal conditioning elements: Deflection bridges and amplifiers. Signal processing elements: Analogue to digital (A/D) conversion. |
10651482
|
Transducers and Interfacing Lab.
|
1 |
|
Experiments on transducers and their construction. Experimental identification of static characteristics of sensing elements: Ideal straight line, non-linearity, sensitivity, hysteresis, resolution, and error bands. Experiments on loading effects in measurement systems. Experiments on deflection bridges and amplifiers. Analogue to digital conversion and data acquisition. |
10651483
|
Hydraulic and Pneumatic Systems
|
3 |
|
Introduction to fluid power systems design and operation. Characteristics of hydraulic fluids and standard tests. Characteristics and selection of positive and non-positive displacement pumps. Characteristics and standards of filters. Linear and rotary hydraulic Actuators. Characteristics and design of hydraulic and pneumatic distribution systems. Hydraulic and pneumatic control valves. Design, sizing and analysis of hydraulic and pneumatic circuits. |
10651484
|
Internship I
|
3 |
|
A practical training of continuous 8 weeks period in an engineering institute approved by the department is a must. The student should register for the course upon finishing the fourth year of study, that is equivalent to successful completion of 128 credit hours of program's compulsory and electives requirements. |
10651571
|
Control Systems Laboratory
|
1 |
|
Open and closed loop control systems with applications to level and flow of fluids, and electrical, electromechanical, and thermal systems. Position and speed Control. Principles of controlling servomechanisms and stability tests. System performance under the action of proportional (P), integral (I), derivative (D) compensation controllers. Time and frequency response measurements. Computer simulation of control systems using MATLAB and SIMULINK software. |
10651572
|
Programmable Logic Controllers
|
3 |
|
Principles and application of programmable logic controllers (PLC). Hardware components and construction of PLCs. General PLC programming procedures. Programming ON-OFF inputs to produce ON-OFF outputs. Creating Ladder diagrams from process control descriptions. PLC timer and counter functions. Intermediate functions: Arithmetic, number comparison, skip and master control relay functions, and data systems. Advanced functions: Utilizing digital bits, sequencer and matrix functions. Alternate programming languages. Analog PLC operation. Networking PLCs. |
10651585
|
Graduation Project (1)
|
2 |
|
Literature review of the selected project topic and preparation of the work out line of the project's practical implementation. |
10651682
|
Robotics
|
3 |
|
Robot fundamentals. Robot kinematics: position analysis. Differential motions and velocities (Jacobian and inverse Jacobian). Dynamic analysis and forces. Trajectory planning. Actuators and Sensors of robotic systems. |
10651683
|
Robotics and Automation Lab.
|
1 |
|
Programming and simulation of robot industrial operations. Programming with practical applications of the CNC-Lathe and CNC milling machines. Simulation of industrial processes using a standard PLCs. Practical experiments on industrial automation with applications to assembly stations and product sorting laboratory equipments. |
10651684
|
Design of Mechatronics Systems
|
3 |
|
Background on Mechatronics systems design. Mathematical modeling and computer simulation of Mechatronics systems. Performance and analysis of Mechatronics System. Exercises and/ Comprehensive projects including combinations of electrical, mechanical and computer technologies to produce functional Mechatronics systems. |
10651686
|
Graduation Project (2)
|
3 |
|
Practical implementation of theoretical and experimental knowledge gained from graduation project I. Formal and scientific written report of the work done in parts I and II, and presentation with public defense of the graduation project. |
11032101
|
English in the Workplace
|
3 |
|
English for the Workplace is a three-hour non-credited English course offered to students of Economics and Administrative Sciences and Engineering. This course is designed to train SENIOR students in these faculties to communicate effectively in the business world. It focuses on practical oral and written business communication principles and applications with particular emphasis on writing, sending and answering e-mails, writing proposals for field projects and discussing them with an audience as well as training students to prepare and execute presentations and to express themselves orally. Students are also trained to use modern technology in communication and to contact/ communicate with their instructors through the university moodle program. |
Course Code |
Course Name |
Credit Hours |
Prerequests |
7303311
|
Medicinal Plants in Palestine
|
2 |
|
7303312
|
Cosmetic Products and Community
|
2 |
|
7303433
|
Pharmacy & Society
|
2 |
|
7404111
|
Family Health
|
2 |
|
10311197
|
French Language
|
2 |
|
10805107
|
Psychological Culture in Our Recent Life
|
2 |
|
10816001
|
Planning and Development
|
2 |
|
/
The course aims to explore the factors and determinants that influence policy formulation in both its internal and external dimensions. It emphasizes the optimal use of tools and instruments and the provision of precise information necessary for planning processes, particularly in the context of social mobilization, security and stability, financial resources, national production, industrial energy, and military power at national and international levels. The course also covers an analysis of theories and schools of political development, including behavioural liberal theory, social growth theory, Marxist theory, dependency and development theory, and the Islamic theory of succession. Additionally, the course focuses on studying the methods of political development theories, their intellectual sources, goals, and dimensions, aiming to understand the reasons behind the failure of these theories and models to achieve the desired political development. |
11000111
|
Jerusalem
|
2 |
|
11000112
|
Fighting Corruption : Challenges and Solutions
|
2 |
|
\ |
11000118
|
Public Health
|
2 |
|
This course aims at studying individual, family and community relationships, the cause of pathological phenomena in the society and their symptoms, sources of water and its pollution, air-transmitted diseases, flora and fauna. In addition, the course highlights diseases resulting from technological and urban development. Noise pollution is a case in point. It deals with the dimensions of personal and environmental health and their relationship to social, economic, psychological and political factors, measurements and indices of community health status. Theoretical framework for viewing organizational issues in the delivery of health services is also discussed. |
11000142
|
Family System in Islam
|
2 |
|
This course deals with the concept of family in Islam, its philosophy, importance, the need to it, the legal religious objectives of it, the foundations on which it is based, and the distinguishing characteristics. It also presents the importance of marriage as well as its rules. It also presents the ways by which the marriage bond can be untied once it is impossible to go on marriage despite all reconciliation attempts. It reviews the dangers of false ideas which call for undermining the family and the marriage system as these have their own destructive impacts on religious teachings, human values and on the future on communities. It contributes in presenting and discussing a number of contemporary issues so as to be understood, recognize the opinion of Islamic Shari?ah about it and to find ways to address them such as fender, equality, domestic violence against women, birth control, artificial insemination, the Misyar or altruistic marriage, the temporary marriage and the customary marriage. |
11000143
|
Principles of Religious Observances
|
2 |
|
This course aims at consolidating the concept of Islamic faith, its importance, characteristics, impacts and position in Muslims? lives. The course also demonstrates some scientific evidences that ensures the existence of Allah, the Almighty, and His Greatness. It addresses the atheists? doubts related to universe, destine, and the Day of Judgement.
It also defines the meaning of monotheism, its types, requirements, contradictions; it presents the role of prophets in establishing the monotheism faith in people?s lives by narrating the stories of prophets Moses and Ibrahim with their nations. It briefly talks about the other pillars of Islam. |
11000144
|
Fiqh of Siyra
|
2 |
|
Topics addressed in this course include concept of sira (biography), its sources, importance, benefit, qualities, most important contemporary suspicions around the Qur'anic narrative and responses to them; study of the most important events in the life of the Messenger, peace be upon him, from birth to death. This course is a detailed analytical study of the prophet's biography and the lessons that can be drawn from it. |
11000151
|
General Principles in Administration
|
2 |
|
It aims to provide a comprehensive overview of the basic concepts and practices in management science. This course provides students with the knowledge and skills necessary to understand and apply management principles in various organizational settings. The course includes diverse topics covering all major aspects of management, from planning and organizing to leadership and control. |
11000155
|
Poison Prevention
|
2 |
|
This course explores the science of toxins and their impacts on human health and the environment, while emphasizing practical strategies for prevention and intervention. Students will understand the mechanisms of toxic substances, including chemicals, pharmaceuticals, and environmental pollutants, and examine their effects on biological systems. By the end of the course, participants will be equipped with the knowledge to assess risks, implement safety measures, and advocate for effective public health strategies to mitigate the impact of toxins in various societal contexts. |
11000156
|
Investment Principles
|
2 |
|
Aim to provide students with basic knowledge and concepts related to investment. This course covers a range of topics that help students understand how to make informed investment decisions and analyze the returns and risks associated with various investments. The course provides a comprehensive overview of types of investment assets, financial markets, and investment strategies. |
11000157
|
Principles of Marketing and Personal Selling
|
2 |
|
It aims to introduce students to the basics of marketing and personal sales. The course covers basic marketing concepts and processes, such as market analysis, identifying the target audience, product development, and e-marketing, in addition to understanding the basics of personal selling and its various techniques. |
11000158
|
Medications and Community
|
2 |
|
11000166
|
Genetics and Society
|
2 |
|
11000167
|
University Psychological Adaptation
|
2 |
|
11000168
|
Principles of Ocupational Saftey
|
2 |
|
11000173
|
Sign Language
|
2 |
|
11000254
|
Sports and Health
|
2 |
|
--- |
11000255
|
Practical Swimming
|
2 |
|
--- |
11201101
|
Introduction to Musicology
|
2 |
|
11201102
|
Introduction to Music Education
|
2 |
|
11201103
|
Palestinian Music Folklore
|
2 |
|
Studying the musical production of the Palestinian people, and identifying the style of popular music. Palestinian, and analysis of popular music at the instrumental and lyrical levels. Research into the characteristics of instrumental music and its popular singing features. Study and analysis of the various forms and templates of popular music. Identifying examples of popular songs and types of popular musical instruments, in terms of their manufacture, sound structure, and methods of playing them. |
11201163
|
Choir
|
2 |
|
The course aims to learn collective singing of a repertoire of Palestinian and Arab national anthems and songs. |