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Course Content

 
COMPULSORY COURSES
 FIRST YEAR 1. SEMESTER
NO  COURSE CODE  COURSE TITLE C/E
 T P L TH C ECTS
 1.  İNŞ101  CHEMISTRY FOR ENGINEERS C 2 0 0 3 2 3
Introduction; matter and its properties; unit systems; atoms, molecules, and ions; stoichiometry; aqueous solution reactions; gases; and energy in chemical reactions.
 2. İNŞ103  PHYSICS FOR ENGINEERS  C  3 0 0 3 3 4
Measurements and unit systems; statics; kinematics; and dynamics.
 3.  İNŞ111  ENGINEERING MATHEMATICS I C 3 0 0 3 3 5
Numbers; functions and their properties; inverse functions; trigonometric functions; logarithmic and exponential functions; hyperbolic functions; polar and parametric functions; limits and continuity of functions; derivatives and their applications; maxima and minima of functions; L’Hôpital’s Rule; asymptotes and curve sketching; chain rule; differentials; integrals and their applications; area and volume calculations; arc length; surface area; and centroid calculations.
 4. YDL101  ENGLISH I C 3 0 0 3 2,5 5
Greetings/ Classroom language Plurals/ This-That-These-Those To be Verb Present Simple Present Simple Have got/ Has got There is/ There are Present Continuous Present Continuos Mid-term exams Can/ Can’t Present Simple and Present Continuos Past Simple to be Review
 5.  İNŞ107  INTRODUCTION TO CIVIL ENGINEERING C 3 0 0 3 3 3
History of civil engineering; fundamental concepts related to civil engineering; introductory knowledge on hydraulic structures, reinforced concrete structures, steel structures, timber structures, soil mechanics and foundations, and transportation systems.
 6.  İNŞ109  COMPUTER AIDED DESIGN I C 1 2 0 3 2 4
Introduction to the AutoCAD program; basic drawing commands; text commands; editing commands; layer and object property commands; dimensioning commands; blocks and commands for importing drawings from external sources; and application of building plan drawing.
 7.  ENF101  BASIC INFORMATION TECHNLOGY C 2 2 0 4 3 4
 Basic concepts of computers; internet and related services; Windows 7; use of MS Word, MS Excel, MS PowerPoint, and MS Access. 
 8.   ENF101  DIGITAL LITERACY  C  2  0 0   2  2  2
 

NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
FIRST YEAR 2. SEMESTER
 NO COURSE CODE  COURSE TITLE  C/E  T  P  L TH   C  ECTS
 1.  İNŞ106  MATHEMATICS II Z 3 0 0 3 3 4
Infinite sequences and series; Power series; Functions defined by power series; Taylor series. Vectors in the plane and in space. Multivariable functions and partial derivatives. Multiple integrals; Double integrals; Applications to area and volume calculations. Triple integrals in Cartesian, cylindrical, and spherical coordinates. Line integrals. Analytic geometry in space. Matrices, determinants, and Cramer’s Rule.
 2.  İNŞ116  STATICS  Z 3 0 0 3 3 5
 Fundamental principles of statics; force vectors; components and resultant of forces; moments and couples; static equilibrium; equivalent force systems; free-body diagrams; two- and three-dimensional equilibrium; truss structures; and internal forces. 
 3.  İNŞ110  COMPUTER AIDED DESIGN II Z 1 2 0 3 2 4
Technical drawing terminology; drawing instruments and tools; perspective drawings; principal and auxiliary views; dimensioning; sectioning; drawing interpretation; freehand sketching; and introduction to computer-aided drawing commands.
 4.  ENF102 PROGRAMMING Z 2 2 0 4 3 5
 General characteristics of computer programs for engineering applications; program development; execution procedures; and result analysis. 
 5.  YDL102  ENGLISH II Z 2 1 0 3 2,5 5
 Past Simple to be Past Simple Future Tenses Future Tenses Countable and Uncountable Nouns Adjectives Too/Enough Have to Mid-term exams Comperatives Superlatives Present Perfect Present Perfect and Past Simple Review 
 6.  İNŞSEC2YY  TECHNICAL ELECTIVE COURSE E 3 0 0 3 3 4
 
 7.  İNŞSEC2YY  SOCIAL ELECTIVE COURSE E 2 0 0 2 2 3
 
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
 SECOND YEAR 1. SEMESTER
 NO  COURSE CODE  COURSE TITLE  C/E  T  P  L  TH ECTS
 1.  İNŞ201 STRENGTH OF MATERIALS I C 3 0 0 3 3 5
Stress state and stress tensor; stress analysis in axially loaded bars; strain and deformation in axially loaded bars; statically determinate systems; indeterminate systems; strain tensor; stress-strain relationships; axial tension test; strength reduction and failure theories of materials; moments of inertia; torsion of circular elastic bars; and torsion of non-circular section members.
 2.  İNŞ203 LINEAR ALGEBRA C 3 0 0 3 3 5
Systems of linear equations; matrices; vector spaces, subspaces, bases, dimensions, and coordinates; linear transformations, kernel and image subspaces, and isomorphisms; matrix representation of linear transformations; linear functionals, dual spaces, double dual spaces, and the adjoint of a linear transformation.
 3.  İNŞ205 DIFFERANTIAL EQUATIONS C 3 0 0 3 3 5
Fundamental concepts and classification of differential equations; first-order equations and engineering applications; second- and higher-order differential equations and engineering applications; variable-coefficient equations; systems of linear equations: scalar and matrix methods; Laplace transform and engineering applications; and introduction to numerical solutions of differential equations.
 4.  İNŞ207 DYNAMICS C 3 0 0 3 3 5
Ability to define dynamic and kinematic problems through verbal and written expression; modeling of applied particle and rigid body kinematics problems within the scope of engineering dynamics using basic drawing techniques and modern computer technologies; application of the principles of dynamics in engineering through practices such as problem-solving and developing design solutions for engineering scenarios; formulation of mathematical models for applied particle and rigid body kinematics problems; and ability to analyze particle and rigid body dynamics and their applications, as well as to interpret the results.
 5.  İNŞ211 ELEMENTS OF CONSTRUCTION I  C  3  0 0   3 3   4
Definition, classification, and layout of structures; foundation excavation and safety precautions during excavation; foundations; walls constructed with stone, brick, briquette, autoclaved aerated concrete (ytong), concrete, and gypsum blocks; shear walls; and retaining walls.
 6.   İNŞ213  CONSTRUCTION MATERIALS  C  3  0  0  3  3  4
Production of cement; types of cement; hydration of cement; aggregates; chemical and mineral admixtures used in concrete; fresh concrete; hardened concrete; concrete mix design; durability of concrete; and laboratory applications of construction materials and concrete tests.
 7.   TDL101  TURKISH LANGUAGE I  C  2  0  0  2  2  2
Characteristics of language and its role in social life; historical periods of the Turkish language; phonetics; words in terms of meaning and function; orthography and punctuation; preparation and presentation of essays, poems, compositions, short stories, newspapers, and magazine studies and applications.

 

NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course. 
 
 SECOND YEAR 2. SEMESTER
 NO COURSE CODE   COURSE TITLE  C/E  T  P  L  TH  C  ECTS
1.   İNŞ202  STRENGTH OF MATERIALS II C 3 0 0 3 3 5
Axial, shear, and bending moment diagrams; bending in symmetric sections; normal force and bending in symmetric sections; bending in unsymmetric sections; normal force and bending in unsymmetric sections; shear stresses in beams; stresses under combined loading; transformation of stresses and strains; deflection analysis of beams; energy methods; and buckling.
 2.  İNŞ206  NUMERICAL METHODS C 3 0 0 3 3 5
Introduction to numerical methods; error analysis in numerical computations; solution methods for nonlinear equation systems; solution methods for linear equation systems; solution techniques for eigenvalue problems; approximation methods; interpolation; numerical integration; and numerical differentiation.
 3.  İNŞ208  STATISTICS C 3 0 0 3 3 5
Definition, development, and importance of statistics; fundamental concepts and terminology; probability and distributions; frequency analysis and parameter estimation; probability distribution functions and sampling distributions; testing of statistical hypotheses; analysis of variance (ANOVA); and regression analysis.
 4.  İNŞ214 SURVEYING C 3 0 0 3 3 5
Fundamental concepts of surveying; problem-solving methods; utilization of geodetic instruments; and field applications.
 5. TDL102  TURKISH LANGUAGE II  C  2  0  0  2  2  2
 Morphology of the Turkish language; sentence elements and types of sentences; expression disorders; orthography and punctuation; preparation and presentation of essays, poems, compositions, short stories, newspapers, and magazine studies and applications.
 6.  İNŞSEC4YY  TECHNICAL ELECTIVE COURSE  E 3  0  0  3  3  5
 Ders  
 7.  İNŞSEC4YY  SOCIAL ELECTIVE COURSE E  2  0  0  2  2  3
 Ders  
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course. 
 
  THIRD YEAR 1. SEMESTER
 NO  COURSE CODE  COURSE TITLE  C/E  T  P  L  TH  C  ECTS
 1. İNŞ301 STRUCTURAL ANALYSIS I C 3 0 0 3 3 4
General principles; analysis of simple isostatic systems under static loads; calculation of internal forces; drawing of internal force diagrams; analysis under moving loads; influence lines; examination of isostatic systems with intermediate hinges; and displacement and deformation calculations in isostatic systems.
 2. İNŞ303 FLUID MECHANICS I C 3 0 0 3 3 4
Introduction to fluid properties; pressure; hydrostatics; pressure forces on various surfaces; flow in pipes; momentum equation; laminar and turbulent flow; friction losses; minor losses; flow in pipes connected in series and parallel; pipe networks; pumps; flow in open channels; specific energy; flow over weirs; and groundwater flow.
 3. İNŞ305 TRANSPORTATION I C 3 0 0 3 3 3
Transportation systems; highway components; characteristics of roads and road users; road capacities; geometric design standards of highways; route (alignment) investigation; horizontal curves; applications of superelevation and transition curves; longitudinal profiles and vertical curves; planning of urban roads and at-grade intersections; and road drainage.
 4. İNŞ307 SOIL MECHANICS I C 3 0 0 3 3 4
Introduction to soil mechanics; index properties of soils; soil classification; soil stresses; soil compaction; and hydraulic properties of soils.
 5. İNŞ309  CONSTRUCTION MANAGEMENT I  C  3  0  0  3 3  4 
General definitions (construction, project, management); characteristics of the construction sector; construction projects and types of construction; resources required for the construction industry; project life cycle; participants in a construction project; importance of construction management; project management; organization of project participants; construction cost estimation and bidding process; Public Procurement Law; construction planning; scheduling techniques; advanced scheduling techniques; cost control; and earned value analysis.
 6.  İNŞ311  REINFORCED CONCRETE I  C  3  0 0   3  3 4 
Reinforced concrete elements: slabs, beams, columns, and foundations; concrete and steel material properties; stress–strain relationships; cracking, bond, and composite action of concrete and steel; anchorage and lap splices; loads and load combinations; safety and limit states; simple bending in rectangular sections; balanced reinforcement, under-reinforced and over-reinforced sections; doubly reinforced rectangular sections; flanged sections; simple bending; combined bending and axial force (M+N) in rectangular sections; interaction diagrams; combined bending effects in rectangular sections; tied and spirally reinforced columns; shear resistance; moment–interaction diagrams; torsion; combined shear and torsion; and slender column behavior.
 7. ATA101  ATATÜRK'S PRINCIPLES AND HISTORY OF TURKISH REVOLUTION I  C 2 0  0 2 2 2
The Ottoman Empire and the period up to the end of World War I and the Armistice; fundamental concepts of the Turkish Revolutions; the War of Independence and the foundation of the Republic of Turkey; political, social, economic, and cultural aspects of the establishment of the Republic; Atatürk’s domestic and foreign policies following the foundation of the Republic and the principles shaping the new Turkish state; and reforms in culture, economy, and education in the new Republic.
 8.  STJ301  SUMMER INTERNSHIP I  C  0  0 0   0  0 5 
 Daily monitoring of tasks performed during the internship period (30 working days); preparation and presentation of a report summarizing the knowledge and experience gained.
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
  THIRD YEAR 2. SEMESTER
 NO  COURSE CODE  COURSE TITLE  C/E  T  P  L  TH  C  ECTS
 1.  İNŞ302 STRUCTURAL ANALYSIS II C 3 0 0 3 3 4
Analysis of indeterminate structures under external loads, temperature variations, and support settlements using the Force Method; displacement calculations in indeterminate systems and the theorem of least work; structures with elastic supports and elastic connections; analysis under moving loads and influence lines; structural analysis under the most critical loading conditions; displacement methods in structural analysis: Slope-Deflection and Cross methods for structures with fixed joints; Slope-Deflection method for frames with joint displacements; and introduction to the Stiffness Matrix Method.
 2.  İNŞ304 REINFORCED CONCRETE II C 3 0 0 3 3 4
Analysis, design, and detailing of reinforced concrete slab systems under vertical loads, including one-way and two-way ribbed slabs, waffle slabs, and flat slabs; introduction to earthquake regulations and determination of internal force distributions in structural elements of reinforced concrete buildings subjected to seismic effects according to seismic codes; analysis, design, and detailing of foundation systems of masonry and reinforced concrete structures under vertical and seismic loads, including strip footings, isolated footings, continuous footings on elastic soil, and raft foundations; introduction to stair systems and the analysis, design, and detailing of staircases composed of inclined and landing slabs under vertical loads; general principles of retaining walls and the analysis, design, and detailing of retaining wall sections subjected to earth pressures and surcharge loads.
 3.  İNŞ330 FLUID MECHANICS II C 3 0 0 3 3 4
Flow of real fluids; laminar and turbulent flows; pipe flows; analysis of pipe networks; surge tank oscillations and water hammer analysis; uniform and non-uniform flows in open channels; dimensional analysis and similarity principles.
 4.  İNŞ308 SOIL MECHANICS II C 3 0 0 3 3 4
Shear strength of soils; soil consolidation; slope stability; lateral earth pressures; and retaining structures.
  5.   İNŞ322 TRANSPORTATION II  C 3   0 0  3  3  4 
 Route investigation; alignment design; horizontal and vertical curves; superelevation; transition curves; cross-sections; longitudinal profiles; earthworks; Brückner diagram; and highway project preparation using theoretical methods and software packages such as NETCAD.
  6.  ATA102 ATATÜRK'S PRINCIPLES AND HISTORY OF TURKHIS REVOLUTION II C   2  0  0  2 2 2
The Ottoman Empire and the period up to the end of World War I and the Armistice; fundamental concepts of the Turkish Revolutions; the War of Independence and the foundation of the Republic of Turkey; political, social, economic, and cultural aspects of the establishment of the Republic; Atatürk’s domestic and foreign policies following the foundation of the Republic and the principles shaping the new Turkish state; and reforms in culture, economy, and education in the new Republic.
  7.  İNŞ312  OCCUPATIONAL HEALTH AND SAFETY  C 2   0 0   2 2  3 
Importance of occupational health and safety in terms of employees, enterprises, and the national economy; current legal regulations on occupational health and safety in Turkey; personal protective equipment; duties and responsibilities of civil engineers regarding occupational health and safety; international standards related to the subject; and visual examples (photographs, films, animations, etc.) concerning occupational health and safety practices.
  8.  İNŞSEC6YY TECHNICAL ELECTIVE COURSE  E  3  0  0 3   3 5 
 1
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
  FOURTH YEAR 1. SEMESTER
 NO  COURSE CODE  COURSE TITLE  C/E  T  P  L  TH  C  ECTS
1. İNŞ401  FOUNDATION ENGINEERING I C 3 0 0 3 3 3
Soil investigation methods; field and laboratory tests; preparation of geotechnical reports; deep excavations; preparation of foundation pits; and analysis of foundation systems (shallow foundations).
 2.   İNŞ403 CIVIL ENGINEERING PROJECT  C 0  2  0   2 1  4 
Working on a project related to civil engineering and presenting the project.
3. STJ401  SUMMER INTERNSHIP II   C  0  0 0   0  0 5 
Daily monitoring of tasks performed during the internship period (30 working days); preparation and presentation of a report documenting the knowledge and experience gained.
4.  İNŞSEC7YY TECHNICAL ELECTIVE COURSE   E 3   0  0 3  3  5 
 
5. İNŞSEC7YY TECHNICAL ELECTIVE COURSE E   3  0  0  3  3 5
 
6. İNŞSEC7YY   TECHNICAL ELECTIVE COURSE E   3  0 0   3  3 5 
 
7. İNŞSEC7YY SOSYAL SEÇMELİ DERS E   2  0  0 2   2 3 
 
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
  FOURTH YEAR 2. SEMESTER
 NO COURSE CODE  COURSE TITLE  C/E  T  TH  C ECTS
1.  İNŞ402  LABORATORY APPLICATIONS C 1 2 0 3 2 5
Stress–strain properties of concrete and determination of tensile strength; tensile and torsion tests on metals; bending tests on cantilever beams; behavior of reinforced concrete beams under loading; experiments with venturi meter, orifice, impulse-momentum, and weirs; soil tests including sieve analysis, hydrometer, shear box, sand cone, unconfined compression, and oedometer tests.
2.    İNŞ404  GRADUATION PROJECT  C 0 2   0 2  1  7 
Conducting a project related to civil engineering and presenting the project.
3.  İNŞSEC8YY  TECHNICAL ELECTIVE COURSE E  3  0  0  3  3 5
 
4..   İNŞSEC8YY  TECHNICAL ELECTIVE COURSE  E  3  0  0 3  3  5
 
5.    İNŞSEC8YY  TECHNICAL ELECTIVE COURSE  E  3  0  0  3  3 5 
 
6.  İNŞSEC8YY  TECHNICAL ELECTIVE COURSE  E  2  0 0   2  2  3
 
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
 ELECTIVE COURSES
 FIRST YEAR 2. SEMESTER ELECTIVE COURSES
 NO COURSE CODE
  COURSE TITLE   C/E  T  P  L  TH  C ECTS
1.  İNŞ132 SPEED READ TECHNİCS E 2 0 0 2 2 3
Providing theoretical knowledge and practical exercises aimed at improving the speed of reading Turkish texts at various levels.
2.  İNŞ142 MANAGEMENT OF HUMAN RESOURCES  E 2 0 0 2 2 3
Training individuals to be able to explain the importance of human resource management; define the main activity areas and functions of human resource management; and fulfill managerial responsibilities in human resource management.
3.  İNŞ146 MANAGEMENT AND LEADERSHIP  E 2 0 0 2 2 3
Concepts and theories of management and leadership; management functions; departmentalization systems and job-position definitions in organizations; authority, power, and delegation; and leadership theories.
4. İNŞ122 DATA ANALYSIS AND REPORTING  E 3 0 0 3 3 5
Developing a research model and conducting its application; analyzing research data and preparing a report.
5.  İNŞ124 STRATEGIES IN PROBLEM SOLVING  E 3 0 0 3 3 4
The main objective of this course is to provide students with the ability to make objective strategic decisions and to justify those decisions.
6.  İNŞ126 ARCHITECTURE  E  3  0 0   3 3  4 
Definitions; project phases; program; sketch design; preliminary design; final design; construction drawings; detailed design; walls; slabs; stairs; roofs; roof coverings; office, motel, hotel, school, and cinema buildings; water, sound, and thermal insulation; windows and doors.
7.   İNŞ128 MATERIAL SCIENCE  E  3 0  0  3 3   4
Introduction to atoms and microstructure; classification of materials; atomic bonding; crystal structures and non-crystalline materials; mechanical properties; elastic and plastic deformation; hardness; impact; fracture of materials and fracture mechanics; creep and fatigue; polymer structures, properties of polymers, and their applications.
8.  İNŞ130 ACADEMIC TURKISH  E 2   0 0  2  2  2 
Improving the academic Turkish proficiency of international students through activities such as paragraph and text analysis, reading comprehension, project preparation, library use, conducting interviews, and using academic databases; reading, note-taking, and making inferences from academic texts such as articles, papers, theses, and books; practicing official correspondence; and developing the ability to answer interpretive questions in written examinations.
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
 SECOND YEAR 2. SEMESTER ELECTIVE COURSES
 NO COURSE CODE  COURSE TITLE   C/E T P L TH C ECTS
 1.  İNŞ222  ORGANIZATIONAL COMMUNICATION E 2 0 0 2 2 3
Providing students with knowledge and perspective on the concept of organization and its communication with internal and external publics.
 2.  İNŞ224  INTRODUCTION TO BEHAVIORAL SCIENCE E 2 0 0 2 2 3
The aim of this course is to examine the psychological and sociological aspects of human behavior, interpersonal interactions within small groups, and the effects of these characteristics on professional life.
 3. İNŞ230  VOLUNTEERING E 1 2 0 3 2 4
Concepts of management and organization; the concept of volunteering and volunteer management; main fields of volunteering; project development with volunteer workers and participation in volunteer fieldwork; ethical, moral, religious, and traditional values and principles of volunteer work; and participation in activities within public institutions, local administrations, and non-governmental organizations.
4.   İNŞ226  CONSTRUCTION LAW E 2 0 0 2 2 3
The concept of law, its necessity, functions, purposes, characteristics, and sources; definition, historical development, and scope of labor law; fundamental principles and sources of labor law and its place within the legal system; basic concepts of labor law; individual labor law—employment contracts; construction contracts—contracts for work; laws concerning the construction sector and construction contracts; general specifications for construction works; and collective labor law—collective labor agreements.
 5.  İNŞ232  ELEMENTS OF CONSTRUCTION II E 3 0 0 3 3 5
Types of chimneys; types of concrete and reinforced concrete formwork; scaffolding; types of roofs; types of door and window joinery; types of plaster, paint, and whitewash; types of floor, wall, and ceiling coverings; and types of insulation.
 6. İNŞ234  GEOLOGY FOR CIVIL ENGINEERS   E 3  0   0 3  3  3 
Geology in civil engineering; geotechnical engineering and geological science; the Earth's crust and its structure; minerals; rocks; earthquake geology; and foundation geology.
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 

 THIRD YEAR 2. SEMESTER ELECTIVE COURSES
NO COURSE CODE  COURSE TITLE  C/E T P L TH C ECTS
 1.  İNŞ326  HYDROLOGY E 3 0 0 3 3 5
Examination of the formation, distribution, movement, and properties of water on Earth, the changes in these properties over time, and their relationship with the environment.
 2. İNŞ324  INTRODUCTION TO STRUCTURAL DYNAMICS E 3 0 0 3 3 5
Earthquakes; types of earthquakes; theories of earthquake formation; earthquake parameters; structural vibrations; single-degree-of-freedom (SDOF) systems; multi-degree-of-freedom (MDOF) systems; free and forced vibrations; equivalent earthquake load and response spectrum concept; numerical solution methods; nonlinear behavior in SDOF systems; and special topics in earthquake engineering.
 3.  İNŞ320  CONSTRUCTION MANAGEMENT II E 3 0 0 3 3 5
Fundamental concepts of construction management; legal regulations; preliminary construction works; quantity surveying; and cost analysis.
 4.  İNŞ340  RAILWAY E 3 0 0 3 3 5
Introduction to railway engineering; traction; geometric and physical standards; gradients; curves; transition curves; alignment; and superstructure.
 NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
 FOURTH YEAR 1. SEMESTER ELECTIVE COURSES
 NO COURSE CODE COURSE TITLE C/E T P L TH C ECTS
 1.  İNŞ411   ENTERPRENEURSHIP E 2 0 0 2 2 3
Introduction to the fundamental concepts of entrepreneurship and providing students with the essential skills required for entrepreneurs.
 2.  İNŞ413  MANAGEMENT AND ORGANIZATION E 2 0 0 2 2 3
Fundamental concepts of management; classical management theories; systems theory; contemporary management theories; motivation; leadership and communication; power; and politics.
 3.  İNŞ415  TECHNICAL ENGLISH E 2 0 0 2 2 3
Öğrencilerin okudukları İngilizce makaleleri anlama, özetleme, yorumlama ve sunum yoluyla bir grup dinleyiciye sunma becerilerini geliştirme ve İngilizce sunum deneyimi kazanmalarını sağlama
 4.  İNŞ451  ENGINEERING ETHICS E 2 0 0 2 2 3
Teaching students the fundamental concepts of ethics and engineering ethics.
 5.  İNŞ407  COMPUTER APPLICATIONS IN HYDRAULIC ENGINEERING I E 3 0 0 3 3 5
Teaching the theories used in hydraulic engineering applications and performing hydraulic design with the aid of widely used computer software.
 6.  İNŞ409  REINFORCED CONCRETE PROJECT E 3 0 0 3 3 5
Design of a reinforced concrete building in accordance with earthquake code provisions.
 7.  İNŞ417  COMPUTER APPLICATIONS IN GEOTECHNICAL ENGINEERING I E 3 0 0 3 3 5
Geoteknik problemlerin tanımı, Geoteknikte ön çalışmalar ve tasarımın ele alınması, FEM, Plaxis, vb paket programı kullanılarak laboratuvar-arazi deneyleri; taşıma gücü, konsolidasyon-oturma, dayanma yapıları ve destek sistemleri, yamaçların duraylılığı ile ilgili problemlerin çözümü. Plaxis programı ile geoteknik problemlerin çözümü.
 8.  İNŞ419  EXCEL APPLICATIONS IN CIVIL ENGINEERING I E 3 0 0 3 3 5
This course aims to teach students how to use Excel for scientific and technical applications in civil engineering, including matrix formulas and formatting, calculation of internal forces in cantilever beams, determination of the fundamental period of multi-story structures and chimneys, earthquake load calculations, moment of inertia calculations, area calculation using the Cross method, and other related applications.
 9.  İNŞ421  ENGINEERING ECONOMICS E 3 0 0 3 3 5
Importance of engineering economics in decision-making and the use of the time–value of money relationship in making decisions.
 10.  İNŞ423  WATER SUPPLY-SEWERAGE E 3 0 0 3 3 5
Characteristics of drinking water; population forecasting methods and determination of water demand; intake of surface waters; intake of groundwater; hydraulics of water intake structures; design and calculation of pipelines; water distribution systems; dead-end method; and principles of design and calculation of stormwater drainage systems.
 11.  İNŞ425  ADVANCE COMPUTER PROGRAMMING LANGUAGE E 3 0 0 3 3 5
General characteristics of computer programs for engineering applications; program writing; execution; and result analysis.
 12.  İNŞ427  CURRENT CONSTRUCTION MATERIALS E 3 0 0 3 3 5
Providing information, supported with examples, on the technical and physical properties and application conditions of modern construction materials developed as a reflection of technological advancements, used in walls, floors, and ceiling coverings, as well as in thermal, water, and sound insulation and structural elements.
 13.  İNŞ431  ADVANCED STRUCTURAL ANALYSIS E 3 0 0 3 3 5
Principle of Virtual Work; Force Method; Displacement Method; and special techniques in structural analysis using the Stiffness Method.
 14.  İNŞ437  SOIL MECHANICS III E 3 0 0 3 3 5
Analysis methods in geotechnical engineering; numerical methods; geotechnical investigation; drained and undrained loading conditions; settlement calculations; soil improvement techniques; and slope stability analyses.
 15.  İNŞ439  EARTHWORKS E 3 0 0 3 3 5
Economic earthwork distribution; economic earthwork distribution according to the Brückner Method; excavation equipment and productivity calculations; dump trucks; fixed and variable haul routes; and cost of earthworks.
 16.  İNŞ441  INTRODUCTION TO SOIL DYNAMICS E 3 0 0 3 3 5
The aim of this course is to provide students with sufficient knowledge and skills regarding the fundamental concepts of soil dynamics and earthquakes in civil engineering, the examination of soil behavior under dynamic effects, and the consideration of these effects in the design of geotechnical structures.
 17.  İNŞ449  TRANSPORTATION PROJECT E 3 0 0 3 3 5
Introducing the procedural steps in the preparation of highway projects both theoretically and practically; teaching and applying the fundamental knowledge required to solve professional problems in highway projects.
 18.  İNŞ453  WATER STRUCTURES E 3 0 0 3 3 5
Developing the ability to define river morphology, design river training works, flood control and crossing structures, and energy dissipating structures.
 19.  İNŞ463  COMPUTER AIDED STRUCTURAL ANALYSIS E 3 0 0 3 3 5
Following the introduction of structural systems, analysis of structures using matrix methods is demonstrated through software applications on sample projects.
 20.  İNŞ465  WOODEN STRUCTURES E 3 0 0 3 3 5
Introducing all types of structural elements used in timber structures; providing information on calculation methods and problem-solving approaches.
 21.  İNŞ471  ROAD SUPERSTRUCTURE E 3 0 0 3 3 5
Pavement cross-sections and definitions; functions of pavement layers; properties of aggregates used in bituminous mixtures and related tests; bituminous binders and related tests; flexible pavements; surface treatments; base layers; bituminous mixture layers; and properties and design of hot mix asphalt.
 22.  İNŞ473  TUNNEL ENGINEERING E 3 0 0 3 3 5
Introduction to tunneling: principles and engineering aspects; geological phase in tunneling; tunneling methods in soft soil, rock, and mixed ground conditions; soil improvement techniques in tunneling; stresses and displacements around tunnel openings; tunnel design and support systems; and application of numerical analysis methods in tunneling.
 23.  İNŞ477  STATISTICAL METHODS IN HYDROLOGY E 3 0 0 3 3 5
Providing detailed knowledge on statistical methods commonly used in hydrology.
 24.  İNŞ483  REAL ESTATE VALUATION PRINCIPLES E 3 0 0 3 3 5
Right of ownership; types of ownership rights; full ownership; joint ownership; and management of real estate in co-ownership.
 25.  İNŞ485  STEEL STRUCTURES E 3 0 0 3 3 5
Overview of national and international standards used in steel structure design; design requirements; design of tension members; design of compression members; design of flexural members; design of members for shear; design of members for combined and torsional loading; design considering connections; and design of box and circular section members considering connections.
 26.  İNŞ487  REPAIRING AND REINFORCING OF MASONRY STRUCTURES E 3 0 0 3 3 5
Damage identification, evaluation, and classification; information and definitions related to various earthquakes; types of earthquake damage including wall, slab, beam, column, beam–column joint, shear wall, and foundation damage; temporary measures to be taken in buildings after earthquakes; general repair principles; repair of structural elements; and repair and strengthening materials.
 27.  İNŞ489  ANALYSIS AND DESIGN OF MASONRY STRUCTURES E 3 0 0 3 3 5
The aim of this course is to determine the structural behavior of masonry structures under strong earthquake motions. The course focuses on the analysis of structural elements forming masonry structures, different masonry structural systems, their seismic behavior, and earthquake-resistant design principles for such systems.
 28.  İNŞ491  QUANTITY AND EXPLORATION E 3 0 0 3 3 5
Importance of quantity takeoff in project management; principles to be applied in quantity surveying; quantity takeoff application covering the entire building project provided by each student; quantity takeoff application for excavation and fill in transportation structures; importance of cost estimation; preliminary and final estimates; methods used in cost estimation; unit price and its components; cost estimation application covering the entire building structure; and examination of implemented cost estimation examples.
 29.  İNŞ493  STRUCTURAL PHYSICS E 3 0 0 3 3 5
B1B2B3
 30.  İNŞ495  COMPUTER APPLICATIONS OF STRUCTURAL MECHANICS I E 3 0 0 3 3 5
Concept and scope of building physics; building physics principles to be considered in the design process of structural systems and elements; settlement and expansion joints in buildings and principles of their sealing; principles to be considered in thermal, water, and sound insulation of foundations, walls, and slabs, along with related insulation applications.
 31.  İNŞ497  COMPUTER APPLICATIONS OF TRANSPORTATION ENGINEERING E 3 0 0 3 3 5
Ulaşım mühendisliği uygulamalarında kullanılan teorileri ve dünyada yaygın olarak kullanılmakta olan bilgisayar programları yardımıyla tasarım yapmayı öğretmek.
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
 
FOURTH YEAR 2. SEMESTER ELECTIVE COURSES
 NO COURSE CODE  COURSE TITLE  C/E T P L TH C ECTS
 1.  İNŞ412  STRATEGICAL MANAGEMENT E 2 0 0 2 2 3
This course addresses and examines the strategies and related methods required for an enterprise to sustain its existence in the long term.
 2.  İNŞ414  OCCUPATIONAL PSYCHOLOGY E 2 0 0 2 2 3
This course introduces students to various psychological processes influencing workplace behavior and the applications of psychological theories and approaches in the work environment.
 3.  İNŞ416  BUISNESS MANAGEMENT E 2 0 0 2 2 3
Fundamental concepts of business management; the emergence and development of business management; understanding of management skills and functions; and enhancing students’ knowledge and comprehension in these areas.
 4.  İNŞ420  NATURE, ENVIRONMENT, AND CITY E 2 0 0 2 2 3
This course examines the relationship between nature, environment, and human beings; environmental law and policies; urban law and policies; sustainable cities; urban ecology; environmental problems in cities and their solutions; and environmental management.
 5.  İNŞ470  INTELLECTUAL AND INDUSTRIAL PROPERTY RIGHTS E 2 0 0 2 2 3
Teaching students the meaning of concepts such as intellectual property, intellectual products, patents, literary and artistic works, industrial designs, and trademarks.
 6.  İNŞ422  DESIGN OF REINFORCED CONCRETE STRUCTURES E 3 0 0 3 3 5
Design of a reinforced concrete building in accordance with the principles of the earthquake code.
 7.  İNŞ424  DESIGN OF EARTHQUAKE RESISTANT STRUCTURES E 3 0 0 3 3 5
Earthquake-resistant structural design; seismic safety; limit states; overall structural behavior; structural irregularities; design spectrum; determination of elastic seismic loads; seismic load effects; acceleration spectrum; ductility of structural systems; equivalent static load method; modal combination methods; structural systems; design rules for reinforced concrete structures; story drifts; design of base isolation systems; and retaining walls.
 8.  İNŞ426  DESIGN OF HIGH STRUCTURES E 3 0 0 3 3 5
Introduction to the selection of appropriate structural systems and design philosophy for high-rise buildings; structural modeling and analysis; building and foundation design; fire safety engineering; and construction planning and management in high-rise building projects.
 9.  İNŞ428  DESIGN OF STEEL STRUCTURES E 3 0 0 3 3 5
Examination of steel design software used in structural steel design; applications of steel structures using an existing steel design program; overview of connections (design of simple shear connections, moment connections, bracing and truss connections, and various other types of connections).
 10.  İNŞ432  QUALITY CONTROL, AND STANDARDIZATION E 3 0 0 3 3 5
This course aims to provide students with competencies related to quality assurance and standards in professional life.
 11  İNŞ434  COASTAL ENGINEERING E 3 0 0 3 3 5
Learning the fundamental problems of coastal engineering and the design of coastal engineering structures.
 12.  İNŞ436  IRRIGATION AND DRAINAGE E 3 0 0 3 3 5
Determination of crop water requirements; soil–water–air relationships; water quality; water distribution methods; capacity and design of irrigation structures; determination of drainage discharge; and design of surface and subsurface drainage systems.
 13.  İNŞ438  HIGH SPEED RAILWAYS E 3 0 0 3 3 5
Understanding high-speed railways as a transportation system; learning the design, construction, maintenance, and renewal of high-speed railway lines.
 14.  İNŞ440  TRAFFIC ENGINEERING E 3 0 0 3 3 5
Traffic flow, its variables and interrelationships; intersections, factors influencing their design, types and capacities of intersections; traffic channelization with islands; at-grade intersection design; traffic signaling and signalization methods; traffic signs and markings; and traffic safety.
 15.  İNŞ442  TRANSPORTATION SYSTEMS E 3 0 0 3 3 5
Planning and design of transportation systems; passenger transportation; freight transportation; highway transportation systems; maritime transportation systems; air transportation systems; pipeline transportation systems; railway transportation systems; integration of transportation systems; and intermodal transportation.
 16.  İNŞ444  DISASTER MANAGEMENT E 3 0 0 3 3 5
General concepts and terminology of disasters and disaster management; economic impacts of disasters and financial strategies; natural disaster profile of Turkey including earthquakes, landslides, floods, rockfalls, and avalanches; global and local disaster risk management; principles of disaster risk management; and economic impacts of natural disasters.
 17.  İNŞ446  SPECIAL CONCRETES E 3 0 0 3 3 5
Concept of high performance in concrete technology; high-performance and high-strength concretes; classification of lightweight aggregate concretes; design and properties of self-compacting concretes; fiber-reinforced concretes; reactive powder concretes; polymer–Portland cement concretes; and mass concretes and their properties.
 18.  İNŞ448  PILE DEEP FOUNDATIONS E 3 0 0 3 3 5
Application of deep foundation systems in cases where shallow foundation systems are inadequate, and examination of the methods used to ensure stability in deep excavation conditions.
 19.  İNŞ450  SOIL IMPROVEMENT METHODS E 3 0 0 3 3 5
Overview of soil improvement methods; techniques applied in highways, dams, and building foundations including compaction, pre-consolidation, sand drains, and wick drains; improvement with additives (lime, cement, fly ash, etc.); fills and measures to increase the stability of embankments; liquefaction and improvement measures; deep stabilization; jet grouting; drainage; soil reinforcement; geotextiles; soil nailing and anchors; and control of improved soil properties.
 20.  İNŞ452  SITE SURVEY AND GEOTECHNICAL EVALUATION E 3 0 0 3 3 5
Importance of site investigation and geotechnical assessment; planning of site investigations; classification and description of soils and rocks; office studies and observational fieldwork; equipment required for site investigation; drilling of boreholes for subsurface exploration; sampling of disturbed and/or undisturbed specimens; techniques for obtaining undisturbed samples; field and laboratory studies; relevant standards and regulations; geotechnical assessment using available data; preparation of geotechnical reports; and evaluation of existing geotechnical reports.
 21.  İNŞ454  FOUNDATION ENGINEERING II E 3 0 0 3 3 5
Soil investigations; materials used in foundation construction; foundation systems (isolated footings, strip footings, raft foundations, deep foundations); foundation excavations; and settlements.
 22.  İNŞ458  COMPUTER APPLICATIONS OF TRANSPORTATION ENGINEERING II E 3 0 0 3 3 5
Teaching the theories used in transportation engineering applications and performing design with the aid of computer software widely used worldwide.
 23.  İNŞ460  COMPUTER APPLICATIONS OF HYDRAULIC ENGINEERING II E 3 0 0 3 3 5
Teaching the theories used in hydraulic engineering applications and performing hydraulic design with the aid of computer software widely used worldwide.
 24.  İNŞ462  PREPARATION OF PROGRESS PAYMENT E 3 0 0 3 3 5
Definition of progress payments and their importance in project management; methods of preparing progress payments according to contract types and application examples; documents included in progress payment reports and the rationale for their preparation; contract procedures related to the arrangement of progress payment reports; and introduction of currently used software packages for preparing progress payments.
 25.  İNŞ464  BUSINESS PROGRAM WITH PACKAGE PROGRAMS E 3 0 0 3 3 5
Principles of preparing work schedules using the bar chart method; fundamental rules for preparing work schedules with network diagrams; introduction and sample applications of the MS Project software package; and information and sample applications on the Primavera software package.
 26.  İNŞ466  COMPUTER APPLICATIONS OF STRUCTURAL MECHANICS II E 3 0 0 3 3 5
Solving problems in engineering mechanics that are difficult to address through analytical approaches by using widely applied software packages.
 27.  İNŞ468  INTRODUCTION TO BUILDING INFORMATION MODELING E 3 0 0 3 3 5
Yapı Bilgi Modellemesinin (BIM) temel kavram ve bilgilerini öğrenmek ve anlamak. BIM sisteminin inşaat sektöründeki avantajlarını ve dezavantajlarını benimsemek. BIM sisteminin Dünya’da ve Türkiye’de uygulanma düzeylerini ve benimsenme oranlarını incelemek. Bir inşaat yaşam sürecinde BIM kavramlarının uygulanması hakkında bilgi edinmek.
 28.  İNŞ472  PRE- AND POST-STRESSED REINFORCED CONCRETE ELEMENTS E 3 0 0 3 3 5
Prestressed concrete and its characteristics; prestressing steels, elements, and applications; use of prestressed concrete in industrialized construction; prestressed piles; T-beams; double T-beams; hollow-core slabs; I-beams; box girders; columns; stair units; hollow block wall panels; measurements during the prestressing process; required inspections in post-tensioning applications; use and maintenance of couplers; moment coefficients and their significance; friction losses; and sample applications for prestressed concrete structures.
 29.  İNŞ474  COMPUTER APPLICATIONS OF GEOTECHNICAL ENGINEERING II E 3 0 0 3 3 5
Definition of geotechnical problems; preliminary studies and design considerations in geotechnics; use of software packages such as FEM and Plaxis for solving problems related to laboratory and field tests; bearing capacity; consolidation and settlement; retaining structures and support systems; and slope stability analyses.
 30.  İNŞ476  DAMS E 3 0 0 3 3 5
Dams and reservoirs; reservoir design; dam body design; components of dams; spillway design; diversion structures; hydroelectric power facilities; intake structures; and economics of hydraulic structures.
NOTE: C: Compulsory; E: Elective Courses; T: Theoretical Course Hour; P: Weekly Practice Course Hour; L: Weekly Laboratory Course Hour; TH: Weekly Total Course Hour; C: Course Credit; ECTS: European Credit Transfer System Credit of the Course.
CIVIL ENGINEERING DEPARTMENT UNDERGRADUATE COURSES INFORMATION FILE (CLICK TO DOWNLOAD)  

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