KARABÜK ÜNİVERSİTESİ MÜHENDİSLİK FAKÜLTESİ
ELEKTRİK ELEKTRONİK MÜHENDİSLİĞİ BÖLÜMÜ %100 İNGİLİZCE I. ve II. ÖĞRETİM
MÜFREDATINDA YER ALAN DERSLERİN İÇERİKLERİ
1st. Semester CoursesCOURSE CODE / DESCRIPTION
CAL 183
Mathematics I
(4,0)4-4 / This course covers, numbers, absolute value, inequalities, induction, coordinates. The concept of a function and function types. Some kinds of special functions and their domains. Limit and continuity of functions. Properties of continuous functions. The concept of the derivative. Rate of change, the mean value theorem and applications. Finding the maximum and minimum and their applications. Hyperbolic functions and derivatives, implicit and inverse functions and derivatives, parametric equations and their derivatives, and curve sketching. Polar coordinates.
PHY 183
General Physics I
(4,0)4-4 / Units, Physical quantities and vectors, Linear motion, Motion in two and three dimensions, The Newton laws of motion, Applications of Newton's laws, Work and kinetic energy, Potential energy and conservation of energy, Linear momentum, Impuls and collisions, Rotation of a rigid body, Dynamics of rotational motion, Equilibrium and elasticity, Gravitation
CHE183
General Chemistry
(3,0)3-3 / Knowledge of matter , structure of atom, sequence of electrons, periodic system, Chemical bonds and interactions, classification and atomicity, mole and equivalency concept, chemical laws, reactions, gases, solutions and concentration.
CME 183
Information technologies and applications
(2,2)3-4 / This course is designed as an introduction to computing and computer science. We will focus on several topics such as history of computing, computer organization and components, operating systems, programming languages, program development, data structures, problem solving, software engineering, computer ethics, and computer applications.
EEE 101
Introduction to Electrical and Electronics Engineering
(2,1)2-3 / Introduction to Engineering, History, Variables and Units, Mathematical Methods and Tools in Electric and Electronics Engineering, The Engineering Design Process, Standards and Intellectual Property Rights, Ethics, Basic Laboratory Equipments
EEE 121
Electrical - Electronics Measurement
(3,1)4-4 / Basic dc analysis techniques, passive components, nonlinear components, power and energy calculations and fundamental concepts of three-phase systems are covered.
EEE 107
Laboratory Sessions I
(0,2)2-2 / Measurement, Force, Straight line motion with constant velocity, Straight line motion with constant acceleration, Motion in a plane, Collusion in two dimensions, Newton's law of motion, Measurement of gravity with simple pendulum, Examination of potential energy variation and simple oscillation in spiral spring.
HST181
Ataturk's Principles and History of Revolutions I
(2,0)2-2 / Introduction, Fall of the Ottoman Empire, Tanzimat and Islahat Eras, Tripoli and Balkan Wars, World War I, The Armistice of Moudros, the Occupation of Anatolia and the National Reactions, The Birth of the Turkish Revolution, Turkish War of Independence, The Armistice of Mudanya, The Treaty of Lausanne
TRK181
Turkish Language I
(2,0)2-2 / This course is designed to teach the definiton of language and culture, language-culture relation, the role of language as a social institution in societies, the situation of Turkish Language among world languages, the development and historical periods of Turkish language, the current condition of Turkish Language and span of usage, Turkish Phonology, inflectional and derivational morphemes in Turkish, types of lexicon in Turkish, and elements of the sentence.
FOL 181
Foreign Language I
(2,0)2-2 / The course is designed to teach basic grammatical structures of English languages such as to be, there is/are, have/has got, tenses, modals, passives, conditionals, noun clauses, reported speech, gerunds/infinitives.
2nd. Semester Courses
COURSE CODE / DESCRIPTION
CAL 186
Mathematics II
(4,0)4-4 / Functions, trigomometry, linear equation systems and matrices, limit and continuity, derivation, integral, differential equations, statistics
PHY 186
General Physics II
(4,0)4-4 / Electric charge and electric fields, Gauss's law, Electric potential, Capacitance and dielectrics, Current, resistance and electromotive force, Direct-current circuits, Magnetic fields and magnetic forces, Source of the magnetic field, Electromagnetic induction and Faraday's law, Inductance, Alternating current, Electromagnetic waves
CAL 192
Linear Algebra
(3,0)3-3 / Matrix Algebra, Elementary Row Operations on Matrices and Solution of Linear Equations, Special Types of Matrices, Elementary Matrices, Equivalent Matrices, nxn Determinants, properties of Determinants, Vector Spaces, Subspaces, Linear Independence, Basis and Dimension. Linear Transformation and matrix of a Linear Transformation, Eigenvalues and Eigenvectors, Diagonalization Inner Product Spaces
CME 182
Computer Programming
(2,2)3-4 / This course introduces the students to the fundamental concepts of programming using the C programming language.
EEE 110
Computer Aided Technical Drawing
(2,2)3-4 / Terminology of technical drawing, types of technical drawings, drawing tools, standard line types and thicknesses, basic geometric drawings, types of perspective projections, principal views and auxiliary views, dimensioning elements and rules, types of section views (full section, half section, broken-out section, offset section, rotated section and auxiliary sections), freehand sketching techniques, introduction to computer aided design, technical drawings of electrical-electronics circuit components and circuits, introduction to drawing of electrical installation projects
EEE 180
Electrical Materials
(3,0)3-3 / Introduction to Electrical materials, insulators: electrical conductivity of dielectrics, dielectric materials, the DC conductivity, polarization, dielectric permittivity, dispersion, dielectric loss, electrical breakdown, quality control and safety, conductors: physical characteristics, types of conductors, superconductors, magnetic materials: diamagnetic, paramagnetic, and ferrite ferromagnetic materials, magnetic permeability and losses.
EEE108
Laboratory Sessions II
(0,2)2-2 / Ohm's Law, Kirchhoff's Laws, the electric and magnetic fields, RLC circuits.
HST 182
Ataturk's Principles and History of Revolutions II
(2,0)2-2 / Political Reforms, Legal Reforms, Educational and Cultural Reforms, Economic Reforms, Social Reforms, Atatürk’s Principles, Atatürk’s Foreign Policy, Turkey in the World War II, The concept of Jeopolitics and Jeopolitics of Turkey.
TRK 182
Turkish Language II
(2,0)2-2 / This course is designed to teach the definition of sentence and elements of sentence; sentence analysis and examples of sentence analysis; types of sentences; composition skills; planning of written composition; types of written and oral expression and examples; means of expression and brainstorming n forming paragraphs; ambiguities in sentences; and the rules employed in the conduction of research article.
FOL 182
Foreign Language II
(2,0)2-2 / This course is designed to teach adjectives and adverbs, relative clauses, adverbial clauses, pronouns, nouns, quantifiers, articles, causatives, tag questions, prepositions.
3rd.Semester Courses
COURSE CODE / DESCRIPTION
FOL 281
Technical Foreign Language I
(2,0)2-2 / The Concept and Basic definitions of science, technology, engineering, engineer. History of engineering. The methodology of engineering work The concept and steps of scientific method. The concept and steps of engineering design process. Problem solving techniques in engineering. Seven steps to problem solving in engineering.
CAL 283
Differantial Equations
(3,0)3-4 / Classification of differential equations, obtaining of differential equations, first order differential equations, higher order linear differential equations, Laplace transform.
EEE 221
Circuit Analysis I
(3,2)4-5 / Basic concepts, mesh and nodal analysis, circuit theorems, energy and power concepts. Switching functions. Natural and steady state responses of first and second order circuits. Dynamic response of multi-mesh and multi-node circuits. State equations.
EEE 241
Logic Circuits
(3,2)4-5 / The course will cover many subjects including binary logic, combinatorial and sequential circuit design, state machine design techniques, instruction set architectures, and finally basic processor design.
EEE 211
Algorithms& Data Structures
(3,2)4-5 / Reviewing of object oriented programming topics using C++ language.
PHY 261
Modern Physics
(3,1)3.5-4 / Relativity, Particle properties of waves, Wave properties of particles, Atomic structure, Quantum mechanics, Behavior of electron in solid material
EEE 243
Electronics Devices
(3,2)4-5 / Fundamental Electronic Circuits, Solid Structutes, PN Junction (Semiconductor Diode), Bipolar Junction Transistor (BJT), Field Effect Transistor (FET).
4 th. Semester Courses
COURSE CODE / DESCRIPTION
FOL 282
Technical Foreign Language II
(2,0)2-2 / Basic technical terms of industrial engineering, systems engineering, operations research, computer engineering, hardware and network software engineering, metallurgical engineering, iron and steel casting, ceramic engineering, mechanical engineering, mechatronics and mechanic,electrical engineering, automotive engineering in English
EEE 222
Circuit Analysis II
(3,2)4-5 / Sinusoidal alternative current and voltage. Phasors. Power and power factor. Resonance. Bode plots. Topology. Non-sinusoidal wave forms. Mutual inductance and transformers. Circuits with four terminals. Complex frequency domain. The concept of transfer function. Convolution. Fourier series and its implementation.
ESC 280
Sustainable Environment
(3,0)3-3 / Interdisciplinary exploration of environmental, scientific, economic, social, and political opportunities and impacts associated with energy systems. Main fuel technologies such as fossil, hydroelectric, nuclear, photovoltaic, wind, and biomass. The supply and use of energy systems with emphasis on sustainability. Qualitative and quantitative analysis of energy resources, combustion, conversion, distribution processes in terms of environmental, social, and economic impacts. Emerging portfolios
CAL 284
Mathematical Methods for Engineers
(3,1)4-4 / Numerical error analysis. To find roots of equations. Systems of linear equations. Curve fitting. Interpolation. Numerical derivative and integration. Solutions of ordinary differential equations. Eigenvalues and eigenvectors
EEE 220
Basic Semiconductor Devices
(3,2)4-5 / Review of physics and operation of diodes and bipolar and MOS transistors. Equivalent circuits and models of semiconductor devices. Analysis and design of single-stage amplifiers. DC biasing circuits. Small-signal analysis.
EEE 230 Electromagnetic Theory
(3,2)4-5 / Vector analysis, vectorial differential operators, static electric field, electric potential, electrostatic energy, electrostatics in different materials, magnetostatic field, vector potential, magnetic circuits, magnetic energy, time varying fields
CAL 286 Probability and Statistics
(3,0)3-4 / In this course, descriptive statistics, probability concepts, axioms of probability, random variables, mathematical expectations, discrete and continuous probability distributions, joint distributions, conditional probability, concepts of confidence interval and hypothesis testing, regression and corelation analysis, applications related to probability and statistics are introduced.
ESC200
Labour Law
(2,0)2-2 / Provisions of the Constitution and the Law for Business, Employment and Labor, Social Insurance and General Health Insurance Law, Business Law, Business and Labor Related Regulations
ESC 202
Research and Presentation Skills
(2,0)2-2 / Scientific research and analysis techniques. Data collecting and data analyisis according to scientific research techniques. Reporting the results of researchs according to report writing techniques. Presentation of research subjects. The use of presentation equipments and technologies.
5 th. Semester Courses
COURSE CODE / DESCRIPTION
EEE 301
Industrial Practice I
(0,0)0-6 / Internship covers field experience at any work place (public or private) for at least four weeks (20 work days). Students should follow the instructions stated in Karabuk University Internship Guide in order to successfully complete their internships
FOL 381
Reading and Speaking at Foreign Language
(2,0)2-2 / The weighted subject is speaking skill. The contents of lecture are ; source searching in web, academic presentation about occupational subject, group and team studies, acting, speaking , communication etc.
EEE 343
Electronics I
(3,2)4-4 / Op-amp and its applications. Analysis and design of differential amplifiers in bipolar and CMOS technologies. Current mirrors and active loads. Frequency response of amplifiers. Feedback and its properties. Stability issues and frequency compensation.
EEE 335 Electromagnetic Waves
(3,2)4-4 / Maxwell equations and wave equation, time-harmonic waves, plane waves, reflection and transmission, transmission lines, impedance matching, guided wave structures; classic, micro strip, fiber optic waveguides, electromagnetic radiation, basic antenna properties.
EEE 363
Signals and Systems
(3, 0)3-3 / Continuous and discrete-time signals and systems. Feedback, memory, stability, linearity, time-invariance, Linear and time-invariant systems described by differential or difference equations. Convolution. Fourier series and transformation. Modulation. Sampling. Ztransformation. Transfer functions.
EEE 373
Control Systems I
(3,2)4-4 / Introduction to control systems. Mathematical modelling of control systems. Laplace transform. Transfer function. Open-loop and Closedloop systems. Block diagrams. Block diagram transformation. Signal-Flow Graph Models. State Space Approach. Feedback Control System Characteristics. Transient and Steady-state Response Analyses. Transient Response Specifications. Time-Domain Analyses of Dynamic Systems. The Stability of Linear Feedback Systems. Routh-Hurwitz Stability Criterion. The Root-Locus method
EEE311
Software Applications of Electronics
(3,2)4-4 / Definition of simulation programs, Pretous Design Suite and the ISIS programme, Operation and definition of the program, Creating a new design Area, put the component to the design area, Block operations, Investigation of the circuit elements during simulation, Measuring instruments in the ISIS programme, Oscilloscope, Logic analyzer, Digital counter, Signal generator, Multimeter, Graph-based Simulation, Task of vehicle buttons, PIC-based simulation, Ares printed circuit drawing application prog
EEE 351
Power Systems Analysis I
(3,1)4-5 / Basic concepts about power transmission lines, transmission line parameters, per-unit system, power flow analysis.
EEE 353 Power Electronics
(3,1)4-5 / Basic concepts about power electronics, application areas, controlled and uncontrolled rectifiers, AC-AC converters,DC-DC converters, single and three phase inverters.
EEE 391
Electrical Energy Production
((3,1)4-5 / To introduce electric energy generation, design and construction concepts, characteristics of various types of plants and synchronous machine, exciting configuration kinds. Thermal and hydro plants. Electric economy, load-frequency control, and voltage control, Circuit breakers, relays and different protection configurations. Measurement tools in power systems.
ESC 303
Patent and Industrial Design
(2,0)2-2 / Introduction to intellectual property rights, Product design and development, Industrial design, General provisions, Patent application for the industrial design and its examination. Industrial design patent, Rights derived from industrial patents, Industrial design use, Protection of the rights of designer and patent owners, International agreements, Examination of sample patents, Preparation of a sample patent.
ESC305 Entrepreneurship
(2,0)2-2 / The course introduces the students to the preceding and early phases of an enterprise. It provides the students with basic ideas about entrepreneurial orientation, opportunity recognition
ESC307
Communication Skills
(2,0)2-2 / Historical development of behavioral sciences, Scientific methods of social psychology, Research techniques of social psychology, Individual and its environment, Individuality-character relationship.
ESC 309
International Communication
(2,0)2-2 / Definiton of international communication, Purpose and Progress of International communication, a short history of international communication. Relationship between international communication to basic definitions such as economy, culture, politics. The relevance of the communication process with the process of globalization, international, technology, raw material, organization, and the transfer of the law.