University Requirements Student must complete 18 credit hours

Course Code	Course Name	Credit Hours	Prerequests
10032100	Remedial English	0
Remedial English (E10032100) is a three-hour non-credited English course offered to students who score poorly (i.e. below 50%) on the placement test. Since the major concern of this course is to improve the students? proficiency before starting their ordinary university English basic courses and major courses taught in English, special emphasis has been placed on enhancing the students? ability to effectively acquire the four language skills: reading, writing, listening, and speaking. Specifically, the course attempts to ensure an academically acceptable performance on the part of the students at the level of the English basic courses. Moreover, the course aims at expanding students? vocabulary needed for various tasks.
11000101	Islamic Culture	3
This course aims to establish the concept of Islamic culture and its position among the other international cultures, its position in the Muslim life, its sources, its bases and its characteristics. It also aims to introduce the Islamic culture in faith, worship, relations, morals, and knowledge, to discuss the clash between cultures in addition to Globalization, Human Rights, Woman Rights, Democracy and other contemporary issues.
11000102	Arabic Language	3
This course aims to improve the level of students in language skills and various literary, read and absorb and express written, and oral and tasted literary, through texts flags authors and poets in different eras, lessons in grammar and spelling, and brief definition months dictionaries and Arab old ones the modern and how to use them. This course aims to implement the Arabic language in the areas of reading and expression of both types oral and written communication.
11000103	English Language I	3
University English I (E11000103) is a three credit-hour university-required English language course designed for students who need to work on the four skills of the language: reading, writing, listening, and speaking. The development of vocabulary and skills of comprehension are integral parts of the course. In addition, various reading strategies (making predictions, identifying main ideas, reading for details, relating information in the text to life experience) are introduced and developed through a wide range of topics for reading and writing. The course encourages a more analytical and independent approach to study and helps prepare the students for any subsequent exam preparation.
11000105	Palestinian Studies	3
The course is mandatory for university students from various disciplines, so it provides students with knowledge and `information about the Palestinian reality and in particular the political developments of the Palestinian cause since its inception until the present day in line social and economic developments and political which constitute the main pillars for the study of the Palestinian political reality. This course aims to study the Palestinian issue from its beginning until present in social, economic and political issues.
11000108	Community Service	1
This course aims to familiarize students with community institutions and their contribution through voluntary efforts to serve these institutions to achieve the SDGs. Students are required to complete a minimum of 50 hours of community service to successfully pass the course. Additionally, students must attend 6 guidance sessions on volunteer work and participate in intensive training for selected community service programs if they choose to engage in such programs.
11000117	Leadership and Communication Skills	1
The course aims to assist students in acquiring modern concepts in the field of communication and understanding the essential skills for effective communication with oneself and others. This is achieved through the use of effective teaching methods that rely on student engagement and motivation to learn through training and self-directed learning. The course emphasizes skill development through teamwork and interactive methods, helping students improve their verbal and non-verbal communication skills by learning public speaking and the fundamentals of oration. Additionally, it helps students develop active listening skills, and contributes to enhancing their abilities in dialogue and persuasion, overcoming public speaking anxiety, self-promotion, negotiation, job interviews, presentation and delivery, and writing. The course also provides students with knowledge about innovative and creative ideas that can be implemented, as well as how to write a resume. Furthermore, the course aims to refine students' personalities through participation in group presentations.
11000127	Introduction to Computer Science	1
11000328	English Language II	3
University English II is a three-credit hour university-required English language course which is offered to students majoring in Sciences, Engineering, Agriculture, Veterinary, and Information Technology ... etc. Students in this course will be exposed to a range of science-based writings in English that supply students with samples of the kind of academic English they are likely to encounter in their textbooks. Exercises on grammar, vocabulary and textual organization are geared towards developing students? observational and analytical skills that aid comprehension. The course uses an integrated approach which allows for communicative interaction in the class to actively test and broaden the listening and speaking abilities of the students. Furthermore, the acquisition of vocabulary items will be reinforced through their use in written sentences. Additional training in writing will be given through questions and answers, summaries of principal ideas in a reading passage and the preparation of reports.

Speciality Requirements Student must complete 94 credit hours

Course Code	Course Name	Credit Hours	Prerequests
10201119	General Biology for Science Students	3
This course discusses biological activity at the level of the cell, including cell structure, chemical constituents, architecture, material exchange with the environment, the role of the cell membrane, major energy generating biochemical pathways, cellular respiration, control of cellular activities and gene expression. In addition, this course discusses the anatomy and physiology for a number of systems in the human body such as digestive, nervous, reproductive, motor and endocrine system,
10201120	General Biology for Science Students Lab.	1	10201119
This course offers an opportunity for students to experience the biological concepts taught in lectures of general biology I 10201119. The students will make experiments on physical properties of living organisms, the microscope and the cell. Furthermore, the students will investigate different experiment like blood groups and excretion. In addition to studying animal tissues and organs,
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	10211101
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	10211102
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.
10211203	Principles of Differential Equations	3	10211102 10211201 or 10221102
Classifying and solving 1st order ODEs, solving homogeneous and non-homogeneous 2nd and higher order linear ODEs, power series and Laplace transforms Methods to solve linear ODEs, solving 2nd order Cauchy-Euler ODEs, solving systems of linear 1st-order ODEs in 2 or 3 variables using Eigenvalues- Eigenvectors as well as Laplace transforms.
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	10221101
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.
10221103	General Physics III	3	10221105 or 10221101
This course includes the following topics: Static equilibrium, Gravitation, AC circuits, Fluid mechanics, Oscillatory motion, Wave motion, Sound waves, Superposition & standing waves, Temperature and first Law of thermodynamics.
10221107	General Physics 1 Lab.	1	10221105 or 10221101
In this lab., experiments related to mechanics mostly covered in general physics I (10221101) are performed. This includes -Measurements -Vectors. -Acceleration on an inclined plane. -The speed of sound in air -Viscosity -Newton?s second law -Conservation of energy and momentum -Rotational dynamics -Simple harmonic motion. -Boyle?s law.
10221108	General Physics II Lab.	1	10221106 or 10221102 10221107
In this lab., experiments related to electricity and magnetism mostly covered in general physics II (10221102) are performed. This includes experiments on: - Electric field and equipotential surfaces. - Current, resistance, and ohms law. - The CRO as voltmeter and frequency meter, - Wheatstone bridge (DC and AC). - Capacitance (series, parallel and RC circuit). - Earth magnetic field. - Resistance and Temperature. - Joule?s Constant. - Refractive index of glass.
10221213	Physics Lab. I	1	10221221 10221116 or 10221108
In this Lab., selected experiments in optics electricity, magnetism, thermodynamics and modern physics are introduced. This includes the following experiments: - e/m - Current balance. - Oscillation of a bar magnet in a uniform magnetic field. - Doppler?s effect. - Radioactivity (?) rays. - Thermodynamics (Cu-Fe) thermocouple. - Prism spectrometer. - Diffraction grating. - Newton?s Rings. - Quincke?s interference tube (path difference). - Photocell. - Lenses. - Dc ammeter and voltmeter construction.
10221221	Waves and Optics	3	10221240 or 10221103
This course includes the following topics: - Duality nature of light - Ray optics which includes reflection, refraction, lenses, and mirrors. - Wave nature of light which includes interference and diffraction, - Resolution optical instruments such as microscope, telescope, Michelson and Fabry-perot interferometer. - Diffraction grating. - Polarization and holography.
10221231	Electronics I	3	10221106 or 10221102 or 10221111
This course includes the following topics: Part I: Review and analysis methods for basic circuits: - review for ohms law, Kirchhoff's law, resistive circuits - circuit analysis like voltage divider, current divider, node voltage analysis, mesh current analysis, source transformation, Thevenin analysis and Norton analysis Part II: basics for Semiconducting electronic devices: - semiconductor fundamentals - diode and its applications - Special purpose diodes like zener, varactor, LED, etc. - bipolar junction transistor fundamentals and applications (switch and amplifier) - Transistor bias circuits: Dc operating point, Voltage divider bias, and other bias methods
10221233	Electronics Lab. I	1	10221231
In this lab., experiments related to topics mostly covered in electronics I (10222231). This includes experiments on. - Kirchhoff's laws. - Diode characteristics. - Zener diode. - Diode circuits and applications. - Transistor characteristics. - Transistor as an amplifier. - Transistor as a switch used in logic circuits.
10221241	Thermodynamics and Statistical Physics	3	10221102 or 10211201 10221103
This course includes the following topics: - Different Thermodynamic properties. - Processes in thermodynamics. - Equations of state including ideal gas equation. - The first law of thermodynamics, work, internal energy, and heat flow equation, car not cycle. - Entropy and second law of thermodynamic. - Thermodynamic potentials. - Statistical physics.
10221242	Modern Physics I	3	10221106 or 10221102 10221240 or 10221103
This course includes the following topics: - Introduction to Relativity. - Particle properties of waves. - Wave properties of particles. - Atomic Structure. - Introduction to Quantum Mechanics. - Quantum Theory of the Hydrogen Atom.
10221253	Mathematical Physics I	3	10211203
This course includes the following topics: - Review of series - Complex numbers. - Linear Algebra (matrices, determinates). - Vectors Analysis. - Special functions (Beta, Gamma, etc.). - Series solution of differential equations. - Coordinate Transformations with common special functions (like Legendre, Hermite, Laguerre ?)
10221301	Computer in Physics	3	10211203
This course includes the following topics: - Algorithms - programming language (Fortran 90 or C) The duration for above two topics must be at least 7 weeks (~1/2 semester duration). - Introduces a wide selection of computer-powered mathematical tools for doing physics and mathematics problems. It introduce software package (Mathematica, Maple) starting with following basics and applications: ? Fundamental Commands ? Real and complex algebra ? Trigonometry ? Linear algebra ? Differential equations ? Special functions ? Graphics in 2D and 3D and ? Displaying and Fitting Data ? Some Physics applications to intermediate physics course.
10221313	Physics Lab. II	2	10221213
In this Lab., selected experiments in optics and waves, Atomic physics and modern physics are introduced. This includes the following experiments: - Frank hertz. - Electron diffraction. - e/m (Thomson method). - Atomic spectra. - Photoelectric effect. - Microwave. - Hysteresis. - X-ray (atomic levels involved in cooper; K? and k? emissions). - Velocity of sound in liquids as function of temperature. - Speed of light. - Michelson interferometer. - e/k.
10221351	Electricity and Magnetism I	3	10221102 10221253
This course includes the following topics: - Electrostatics and relevant vector operations and theorems. - Special techniques in electrostatics and solving boundary-value problems. - Electrostatics in matter and relevant quantities needed. - Magnetostatics and methods to calculate magnetic fields. - Magnetic fields in matter.
10221352	Classical Mechanics I	3	10221253 10221101
This course includes the following topics: - Coordinate systems. - Newtonian Mechanics in one dimension. - Damping oscillations. - General Motion of a particle in three Dimensions. - Non-inertial reference frames. - Gravitation and central forces. - Lagrange?s and Hamilton?s equations.
10221353	Mathematical Physics II	3	10221253
This course includes the following topics: - Calculus of variation. - Fourier series and Fourier transforms. - Special functions: Bessel. - Functions of complex variables. - Laplace transforms. - Introduction to group theory.
10221354	Quantum Mechanics I	3	10221250 or 10221253 10221242
This course includes the following topics: - Wave function and statistical interpretation. - Time-independent Schr?dinger equation, - Stationary states. - One-dimensional quantum systems. - Formalism- observables and Hermitian operators. - Quantum mechanics in three dimensions. - Hydrogen atom. - Angular momentum and spin.
10221371	Solid State Physics I	3	10221253 or 10221242
This course includes the following topics: - Crystal structure. - Reciprocal lattice and Binding. - Brillouin Zone - Phonons - Fermi Gas and Density of states. - Energy Bands. - Semiconductors
10221399	Scientific Research	3	10221354
This course includes the following topics: - Technical scientific writing. - Techniques of citations. - Writing scientific article. - In this course, student must choose a project, with the help and approval of the instructor, and write scientific paper on the project. - Student has to give an oral presentation for his project
10221413	Advanced Physics Lab.	2	10221371 10221313
In this Lab., selected experiments in solid state physics, atomic and nuclear physics, electromagnetic and optics are introduced. This includes the following experiments: - Radioactivity - Hall effect - Faraday effect - Electron Spin Resonance - Thermionic emission - Microwave attenuation - Zeeman Effect - Resistivity versus temperature - Four probe measurement for a semiconductor - P-N junction - Kerr effect - Magnetic susceptibility - Compton scattering
10221451	Electricity and Magnetism II	3	10221351
This course includes the following topics: - Electromagnetic induction and electromagnetic energy - Maxwell?s equations in free space and in different media. - The electromagnetic waves in vacuum, in matter and in closed regions. - Electromagnetic radiations and potential formalism.
10221452	Classical Mechanics II	3	10221352
This course includes the following topics: - Lagrange?s and Hamilton?s equations. - Dynamics of systems of particles. - Mechanics of Rigid Bodies: planar Motion. - Motion of Rigid Bodies in Three Dimensions. - Dynamics of oscillating systems ? small oscillations
10221454	Quantum Mechanics II	3	10221354
This course includes the following topics: - Identical particles with applications to atoms and solids. - The theory of perturbation approximations with applications for the fine structure. - Zeeman Effect. - Other approximations as variational principle and WKB. - Time-dependent perturbation theory and applications. - Multiparticle quantum system.
10221462	Nuclear and Particle Physics	3	10221354
This course includes the following topics: - Scattering theory. - Nuclear forces. - Nuclear models. - Alpha, beta, and gamma decays and applications. - Elementary particles. - Symmetries. - Standard model. - Fundamental forces.
10221490	Practical training	3
The student registered for this course after he/she completed at least 90 credit hours successfully. The student must complete at least 45 (in schools) or 90 (the public or private institution) real hours in practice in one of the public or private institution that is relevant to his/her career. The training period have to be in the working place in one of the selected institutions. The choice of the institution must be approved by the university training center with the consultation of the physics department. An example for the public or private institutions those are relevant to physics department students are listed below: - Palestinian Ministry of Education (in schools). - Elevators companies. - Electricity companies. - Power and Energy companies. - Palestinian Energy and Natural Resources Authority (PENRA). - Palestine Standards Institution (PSI). - Cellular communication companies (JAWWAL and WATANIYA). - Communication Company (PALTEL). - Cars companies (electronic maintenance section).
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.
10231102	General Chemistry II	3	10231101
A compulsory 3-lecture course that is a continuation of General Chemistry (I). It is designed to introduce some basic chemical facts and theories about solutions, kinetics, dynamic equilibrium, thermodynamics, electrochemistry and nuclear chemistry
10231107	General Chemistry 1 Lab.	1	10231101
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.
10512182	Methods of Teaching Science	3
Methods of Teaching Science The course presents modern methods for teaching science based on inquiry and discovery. It bridges theory and practice through hands-on classroom activities. Moreover, it encourages future teachers to foster scientific thinking. As a result, students are prepared to teach science in an engaging way.

Speciality Optional Requirements Student must complete 12 credit hours

Course Code	Course Name	Credit Hours	Prerequests
10221314	Physics Lab. III	2	10221213
In this Lab., selected experiments in different physics topics are introduced. This includes the following experiments: - Millikan?s Experiment. - Half life and radioactive equilibrium with cobra 3 - Rutherford experiment. - X-ray fluorescence and Moseley?s law. - X-ray Characteristic of molybdenum. - Fabry-Perot interferometer. - Magnetic moment in the magnetic field. - Coulomb?s law with cobra 3. - Heat capacity of gas with cobra. - Vapor pressure of water at high temperature. - Fresnel?s equation - theory of reflection.
10221342	Modern Physics II	3	10221242
This course includes the following topics: - Many Electron Atoms. - Molecules. - Introduction to Statistical Mechanics. - Introduction to solid state physics. - Nuclear Structure. - Nuclear Transformations. - Elementary particles.
10221356	Theory o Relativity	3	10221242
This course includes the following topics: - Relativistic kinematics. - Relativistic Dynamics ? collisions and conservation laws. - Lorentz ? Einstein transformations. - Relativity in measuring length and time. - Relativity and electricity. - Introduction to general theory of relativity.
10221361	Atomic and Molecular Physics	3	10221354
This course includes the following topics: - Hydrogen atom. - Multi-electron atoms. - Zeeman Effect. - Fundamental symmetries in atoms. - Interaction of atoms with electromagnetic fields and radiations. - Laser spectroscopy and Bose-Einstein condensation.
10221364	Principles of Laser	3	10221221 or 10221242
This course includes the following topics: - The nature of light and the meaning of laser. - Atom and molecules as a source of light. - Black body radiations. - Energy levels and electronic transitions. - Lasing processes: 3-level and 4-level systems. - Einstein?s relations and population inversion. - Laser cavity and laser gain and threshed gain - Types of lasers. - Applications of lasers.
10221373	Applied Geophysics	3	10221103 or 10221242
This course includes the following topics: - A view of the earth sciences. - Plate Tectonics. - Geological hazards. - Introduction to geophysics. - Seismic exploration. - Geoelectrical methods.
10221381	Introduction to Nanoscience and Nanotechnology	3	10221354
This course includes the following topics: - What is Nanoscience and Nanotechnology - Review of Fundamentals of quantum physics. - Materials Classification - Energy spectra and density of states in reduced dimensions (2D, 1D, 0D and quantum rings) for semiconductor nanomaterials. - Quantum Tunneling Phenomena in nanomaterials. - Fabrication Methods and Characterization tools for Nanomaterials. - Nanoelectronics: Single ?Electron Transistor - Ohm?s Law in Nanostructures (Quantization of Conductance). - 2D and 1D Nanomaterials: Carbon-Based Materials(2D Graphene and 1D Carbon Nanotubes) and 2D Silicene. - Applications of Nanomaterials in: Spintronics, quantum computing, quantum Well lasers and Medicine.
10221385	Renewable Energy	3	10221103 or 10221242 10221231
This course includes the following topics: - Energy role in modern society. - Classical sources of energy. - Environmental impact of fossil fuels. - Importance of renewable energy sources. - Solar energy potentials. - Solar Thermal. - High temperature solar photovoltaics. - Passive and active techniques. - Wind energy potentials and techniques. - Geothermal energy.
10221421	Acoustics	3	10221253
This course includes the following topics: - Transverse waves in a string. - Longitudinal and transverse vibrations of rods and bars. - Vibration of membranes and plates. - Plane sound waves. - Reflections and transmission of plane sound waves at plane boundaries. - Spherical waves and radiation from a piston. - Architectural acoustics. - Noise - its measurement and control. - Underwater sound. - Ultrasonic in liquids and solids.
10221455	Statistical Mechanics	3	10221354
This course includes the following topics: - Maxwell- Boltzmann statistics. - Bose-Einstein statistics. - Fermi-Dirac statistics. - Statistical calculation of thermodynamic quantities. - Applications on statistical thermodynamics. - Thermodynamic laws. - State of equilibrium. - Temperature and randomness. - Applications on statistical thermodynamics.
10221464	Laser Spectroscopy	3	10221364
This course includes the following topics: - Spontaneous and stimulated emission. - Atomic spectrum. - Line broadening. - Nonlinear optical processes. - Two photon spectroscopy. - Saturation spectroscopy. - Raman spectroscopy. - Applications in material science (like Medicine, Environmental studies and Industry).
10221465	Spectroscopy	3	10221354 10221454
This course includes the following topics: - Energy spectrum. - Energy levels. - Excitation of atoms. - Electron Spin Resonance (ESR). - Nuclear Magnetic Resonance (NMR). - IR spectrum and Raman spectrum. - Electronic vibrational and rotational spectra of diatomic molecules.
10221468	Astrophysics	3	10221354
This course includes the following topics: - Contents of the universe; matter, Energy, Dark matter and Dark energy. - Channels of Astronomical information. - Astronomical scales and Measurements. - Stiller formation and evolution. - Universe of Galaxies. - Life in the universe.
10221471	Solid State Physics II	3	10221371
This course includes the following topics: - Semiconductor crystals - Fermi surfaces - Superconductivity - Magnetic Materials - Nanomaterials - Dielectrics
10221481	Special Topics	3
This course includes physics topics related to the interest of the instructor. It offers instructor?s experiences in theoretical and/or experimental physics. This make the course has no fixed description, because it varies according to instructor interest. It is usually offered on demand of the instructor after the approval of the department.
11011222	Entrepreneurship and Innovation	3
Explores the world of entrepreneurship and creativity by examining the processes and techniques used to develop ideas and turn them into successful projects. The course includes understanding the foundations of entrepreneurship and the stages of emerging business development, in addition to analyzing the factors that affect the success of entrepreneurial projects and enhancing creativity in various fields.

Speciality Optional Requirements, Second Set Student must complete 3 credit hours

Course Code	Course Name	Credit Hours	Prerequests
10512138	Classroom Environmental Management	3
This course introduces the scientific bases of managing the classroom, and the roles which the teacher plays in there, focusing on the functional and practical aspects. It also deals with the psychological bases on which a classroom is run, through looking into the different psychological theories which help both the teacher and the student achieve their goals , by way of providing the emotional and social atmosphere that encourages learning and delivering scientific expertise and directing them. This course also aims at making this field a practical science where theories are turned into classroom functions.
10512491	Practicum for Science Students	3
Practical Training for Science Students This course offers field experience in real school environments for science students. Students apply the teaching skills they learned in previous courses. They also receive feedback from academic supervisors and in-school mentors.Thus, the course enhances students? professional teaching competencies.

Sub-specialty Optional Requirements Student must complete 1 credit hours

Course Code	Course Name	Credit Hours	Prerequests
10211301	Special Function	3	10211203
Frobenius method in solving 2nd-order ODEs around regular singular points, Definitions, properties and applications of Special functions such as: Beat and Gamma, Bessel's, Legendre, Chebyshev, Hermite, Laguerre & Hypergeometric functions
10211302	Partial Differential Equations I	3	10211202 or 10211203
Topics covered in this course include: the formation of a partial differential equation; methods of solutions of first order linear and nonlinear partial differential equations; methods of solutions of second order linear and nonlinear partial differential equations; Fourier series and transforms; wave equation, Laplace?s equation, potential equation, equation of an infinite wire, heat equation.
10211303	Vector Analysis	3	10211201
Topics covered in this course include: vector algebra, vector products, vectors and scalar fields; the gradient, divergence and curl theorems; line, surface and volume integrals, related theorems; curvilinear coordinates
10211314	Advanced Calculus	3	10211201
Topics covered in this course include: coordinate systems; functions of several variables, parametric representations of curves and surfaces, transformations of regions; derivatives and directional derivatives; implicit functions, Jacobians and related theorems; extreme; multiple integrals and related theorems.
10211403	Ordinary Differential Equations	3	10211203
Differential equations with variable coefficients, Solutions about ordinary and singular points including the Frobenious method. Systems of linear differential equations: homogeneous linear systems ( distinct, complex, and repeated eigenvalues) and non-homogeneous linear systems. Solution techniques including methods of undetermined coefficients and variation of parameters method. Numerical methods for solving initial value problems: Euler method, Improved Euler method, Taylor method, Runge-Kutta method, and multistep methods. Errors and stability.
10216302	Probability Theory I	3	10211201
Random experiments and events, basic probability rules, discrete and continuous random variables, the probability density function and cumulative distribution function for one and two random variables, mathematical expectation, measures of central tendency, measures of dispersion and percentiles, moments and moment-generating functions, conditional probability distributions, correlation coefficient, stochastically independent random variables, some special distributions; binomial, negative-binomial, gamma and normal distributions, transformation method.
10216304	Mathematical Statistics I	3	10216302
Review for the probability density functions for one random variable or more, distribution of functions of random variables, t-distribution, F-distribution, order statistics, estimation, , efficient and maximum likelihood estimation, confidence intervals, testing statistical hypotheses: best test, uniformly most powerful test, likelihood ratio test, sufficient and complete statistics, the Rao-Blackwell theorem and Rao-Cramir inequality.
10226331	Solid State Electronics	3	10221231
This course includes the following topics: - Semiconductor materials. - Crystal lattices. - Growth of semiconductor crystals. - Energy bands and charge carriers in semiconductors - Excess carriers. - Different junction types - Fabrication and characteristics of p-n junctions. - Different types of diodes (photodiodes, LED, varactor diodes, tunnel diodes)
10226341	Digital Electronics I	3	10221102
This course includes the following topics: - Numbers Systems. - Codes. - Binary logic. - IC-Circuit. - Rules of Boolean algebra. - Logic gates. - Design of combinational logic circuits. - Analysis procedure. - Combinational logic with MSJ and LSI. - ROM. - PLA.
10226351	Analogue Electronic Circuits	3	10221231
This course includes several electronic devices: - FET and JFET - Frequency response of RC and RL circuits. - Small signal amplifiers, power amplifiers?. - Frequency response of amplifiers. - Thyristors. - Operational amplifiers and its applications. - Active filters. - Oscillators. - Voltage regulators.
10226441	Digital Electronics II	3	10226341
This course includes the following topics: - Sequential logic circuits. - Registers. - Counters. - Memory unit. - Register transfer logic. - A.L.U. - Accumulators. - Processor logic design.
10226481	Magnetic Instruments	3	10221351 10226331
This course includes the following topics: - Definitions and units. - Experimental Methods. - Diamagnetism and paramagnetic. - Ferromagnetism. - Anti-ferromagnetism. - Ferrimagnetisms. - Soft magnetic materials. - Hard Magnetic Materials. - Magnetic materials for recording and computer. - Motors and Transformers. - Maglev train. - Electromagnetic stoves. - Hard disks. - Electromagnetic Bomb. - Superconductor properties.
10226483	Special Topics in Electronics	3	10226341
This course includes topics related to the interest of the instructor. It offers instructor?s experiences in theoretical and/or experimental electronics. This make the course has no fixed description, because it varies according to instructor interest. It is usually offered on demand of the instructor after the approval of the department.
10226484	VLSI Design	3	10226341
This course includes the following topics: - Impacts and progress of IC-Technology. - Implementation of electronic components. - IC- fabrication. - CVD ? Technique. - Ion-Implantation technique. - Entire sequence of IC design. - Mask design. - Lithography. - Layout design. - Logic design. - Design rules. - Stick diagrams