University of Montenegro

Faculty of Civil Engineering / / ENGINEERING GEOLOGY

Course:

ENGINEERING GEOLOGY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11922	Obavezan	1	5	2+1+1

Programs
Prerequisites	None.
Aims	This Subject enables acqusition of basic information in fields of engineering geology .
Learning outcomes	After having passed the exam, students will be able to: 1. Explain engeneering-geologial terms ; 2. Explain phases of engeneering-geologial investigations for the construction of roads and hydro-technical facilities; 3. Create engeneering-geologial sections; 4. Understand engeneering-geologial maps; 5. Understand engeneering-geologial projects; 6. Understand engeneering-geologial reports. 7. Organize engeneering-geologial ground investigations.
Lecturer / Teaching assistant	Prof. Dr. Milan Radulović - lecturer
Methodology	Lectures, exercises, consultation, field work.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction. Igneous, sedimentary and metamorphic rocks.
I week exercises	Identification of rocks.
II week lectures	Tectonics. Geological, hydrogeological and engineering geological maps (adapted to the study program Management in Civil Engineering).
II week exercises	Geological and hydrogeological maps.
III week lectures	Engineering-geological types of rocks. Geological and engineering-geological characteristics of Montenegro (adapted to the study program Management in Civil Engineering).
III week exercises	Engineering-geological maps.
IV week lectures	Organization and methodology of engineering-geological ground investigation.
IV week exercises	Engineering-geological section according to drilling data.
V week lectures	Engineering-geoloical processes (landslides, escarpments).
V week exercises	Engineering-geoloical section over a landslide.
VI week lectures	Investigations of landslides.
VI week exercises	Elements of a landslide.
VII week lectures	Technical measures to improve properties of a ground: compaction, piles, anchors, injection, drainage.
VII week exercises	Plate loading test.
VIII week lectures	I Test, I Colloquium.
VIII week exercises	I Test, I Colloquium.
IX week lectures	Engineering-geological conditions for the construction of facilities. Organization of investigations for different types of facilities.
IX week exercises	An example of engineering-geological report for constructing residential building and road.
X week lectures	Engineering-geological conditions for tunnels and roads (open route) construction.
X week exercises	RMR classification.
XI week lectures	Engineering-geological conditions for construction of bridges and dams.
XI week exercises	Engineering-geological section for a bridge construction.
XII week lectures	Investigation of geological building material deposits.
XII week exercises	Engineering-geological section over a deposit and reserves assessment.
XIII week lectures	Eurocode 7 - Geotechnical design, Part 2: Ground investigation and testing
XIII week exercises	Finalisation of graphic works.
XIV week lectures	Fieldwork.
XIV week exercises	Fieldwork.
XV week lectures	II Test, II Colloquium.
XV week exercises	II Test, II Colloquium.

Student workload	Weekly Lectures: 3.5 credits x 40/30 = 4h 40min Total workload for the Subject 3.5x30 = 105h
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	Attendance of lectures and exercises, homework and testing.
Consultations	Friday 11.00-13.00
Literature	Mićko Radulović, Basic Geology, Textbook (2003), University of Montenegro; Mićko Radulović, Engeneering Geology, Script (2003), University of Montenegro.
Examination methods	- Attendance to lectures and exercises: max 5 pt; - Graphic works: max 5 pt; - Tests: max 20 pt; - Colloquiums: max 40 pt; - Final exam: max 30 pt; - Pass requires minimum 50 pt.
Special remarks
Comment	Further information about the Subject can be required from the lecturer, assistant, head of the study program and vice dean of academic affairs.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / ENGINEERING GEODESY

Course:

ENGINEERING GEODESY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11937	Obavezan	1	5	2+1+1

Programs
Prerequisites	This course is not conditional on other courses.
Aims	Through this course, students are introduced to geodetic engineering tasks in the design and construction of buildings.
Learning outcomes	After passing this exam student will be able to: 1. Know the methods and instruments used in the design of basis for the designing and construction of roads. 2. Know the process of making operational polygon. 3. Know the making of the project of overground and underground tunnel triangulation. 4. Design the network of bridge triangulation. 5. Contract making of the Elaborate of expropriation. 6. Contract and control all surveying tasks related to creating the basis for the design of roads, marking and control of stability of all parts of road.
Lecturer / Teaching assistant	Đurović Radovan, PhD, MSc.geod.eng. Associate Professor
Methodology	Lectures, exercises, demonstrations for working with maps, topographic base maps and instruments. Studying and doing homework. Consultations.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction. Application of geodesy in engineering. Geodetic networks.
I week exercises	Introduction. Application of geodesy in engineering. Geodetic networks.
II week lectures	Geodesy in construction. The basic goals and tasks of geodesy in the design and construction of construction projects. Cadastral topographic plan as a basis for the development of spatial planning projects and roads. The project of marking construction objects.
II week exercises	Geodesy in construction. The basic goals and tasks of geodesy in the design and construction of construction projects. Cadastral topographic plan as a basis for the development of spatial planning projects and roads. The project of marking construction objects.
III week lectures	Data collection. Characteristic points. Data collection methods - polar and photogrammetric.
III week exercises	Data collection. Characteristic points. Data collection methods - polar and photogrammetric.
IV week lectures	Operating polygon, essence, how to develop and determine coordinates, application in the design and construction of roads
IV week exercises	Operating polygon, essence, how to develop and determine coordinates, application in the design and construction of roads
V week lectures	Vertical terrain representation, accuracy, interpolation of isohypsies. Digital terrain model, way of realization, application in construction with a special reference to the design of roads.
V week exercises	Vertical terrain representation, accuracy, interpolation of isohypsies. Digital terrain model, way of realization, application in construction with a special reference to the design of roads.
VI week lectures	I COLLOQUIUM
VI week exercises	I COLLOQUIUM
VII week lectures	Marking project. 1D, 2D and 3D marking. The polar method of marking axis and other points of various objects from the operating range. Marking errors and accuracy.
VII week exercises	Marking project. 1D, 2D and 3D marking. The polar method of marking axis and other points of various objects from the operating range. Marking errors and accuracy.
VIII week lectures	Area calculation. Calculating volumes using the method of cross profiles, using isohypsies, using a network of regular geometric figures and from a digital terrain model. Diagram of leveling of earth masses.
VIII week exercises	Area calculation. Calculating volumes using the method of cross profiles, using isohypsies, using a network of regular geometric figures and from a digital terrain model. Diagram of leveling of earth masses.
IX week lectures	Analytical development of the geometry of the designed object. Marking the direction between points that cannot be seen. Road geometry. Clothoides. Calculation of the coordinates of crossing points and circular curves in the polygonal train.
IX week exercises	Calculation of the coordinates of the main points of a symmetrical clothoide with a circular curve
X week lectures	Geodetic networks of engineering objects - special purpose networks. Purpose and way of designing. Transformation of special-purpose geodetic networks into the national coordinate system. Quality assessment. Geodetic works during the construction of bridges.
X week exercises	Geodetic networks of engineering objects - special purpose networks. Purpose and way of designing. Transformation of special-purpose geodetic networks into the national coordinate system. Quality assessment. Geodetic works during the construction of bridges.
XI week lectures	Tunnels. Tunnel networks, underground and above ground, their connection, calculation of penetration accuracy. Geodetic works during tunnel excavation. Convergence measurements and observation of tunnel movement during construction and exploitation.
XI week exercises	Tunnels. Tunnel networks, underground and above ground, their connection, calculation of penetration accuracy. Geodetic works during tunnel excavation. Convergence measurements and observation of tunnel movement during construction and exploitation.
XII week lectures	II COLLOQUIUM
XII week exercises	II COLLOQUIUM
XIII week lectures	Modern measuring technique. GNSS method. Remote detection. Unmanned aerial vehicles and the LIDAR method. Radar recording of terrain. Satellite images.
XIII week exercises	Modern measuring technique. GNSS method. Remote detection. Unmanned aerial vehicles and the LIDAR method. Radar recording of terrain. Satellite images.
XIV week lectures	Observation of roads and buildings during construction and exploitation. Expropriation. Geodetic works for the purposes of developing the expropriation project.
XIV week exercises	Observation of roads and buildings during construction and exploitation. Expropriation. Geodetic works for the purposes of developing the expropriation project.
XV week lectures	Work with geodetic instruments, examples from practice.
XV week exercises	Work with geodetic instruments, examples from practice.

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature	Lectures - ppt presentations, material from the website of the Faculty of Civil Engineering, Primena geodezije u saobraćajnicama, Ašanin, S., Bajat, B., Belgrade, 2015, Inženjerska geodesija 1, Ašanin, S., Belgrade, 2003.
Examination methods	- 5 homework tasks total 5 points (each homework task 1 point) – Two colloquiums 20 points each (total 40 points). – Regular attendance 5 points (each absence –1 point) – Final exam 50 points. – Students get the passing mark if they cumulatively collect 50 points.
Special remarks
Comment	Additional information can be obtained at the present teaching staff, with Dean for Academic Affairs.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / PROJECT MANAGEMENT

Course:

PROJECT MANAGEMENT/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11938	Obavezan	1	5	2+1+1

Programs
Prerequisites	None
Aims	Students should learn the basic concepts and methods of projects management with the special application in the field of civil engineering
Learning outcomes	After passing this exam, the student will be able to: Actively participate in managing all phases of technical documentation development in the field of civil engineering. Practically apply acquired knowledge in the area of legal regulations related to civil engineering and actively participate in the preparation of construction site documentation. Apply acquired knowledge directly on the construction site.
Lecturer / Teaching assistant	Dr Miloš Knežević - professor Mr Mladen Gogic
Methodology	Lectures, consultations

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction; Definition, specific quantity and division of investment projects, meaning of some terms; Participants in the realization of investment projects; Phases of investment projects
I week exercises	Introduction; Definition, specific quantity and division of investment projects, meaning of some terms; Participants in the realization of investment projects; Phases of investment projects
II week lectures	Project like cybernetic system. Role of consultant in projects management (in structures building ):consultants’ services, consultants’ services towards FIDIC; models of giving consult. services.
II week exercises	Project like cybernetic system. Role of consultant in projects management (in structures building ):consultants’ services, consultants’ services towards FIDIC; models of giving consult. services.
III week lectures	Project conceiving. Previous feasibility study.
III week exercises	Project conceiving. Previous feasibility study.
IV week lectures	Feasibility study. Revision. Decision of acceptance of study. Obtaining of financial funds.
IV week exercises	Feasibility study. Revision. Decision of acceptance of study. Obtaining of financial funds.
V week lectures	Project definition (making of technical documents): conditions and bases and contents .
V week exercises	Project definition (making of technical documents): conditions and bases and contents .
VI week lectures	Types of documents; teh. doc. For previous and preparatory works; ceding of making techn doc.(choice of designer); making and control of tech. doc.; agree. and keep. tec. doc.
VI week exercises	Types of documents; teh. doc. For previous and preparatory works; ceding of making techn doc.(choice of designer); making and control of tech. doc.; agree. and keep. tec. doc.
VII week lectures	FREE WEEK
VII week exercises	FREE WEEK
VIII week lectures	FIRST TEST
VIII week exercises	FIRST TEST
IX week lectures	Management of realization of investment project: getting the proofs on rights of property or usage of building site; building license, ceding of structure building
IX week exercises	Management of realization of investment project: getting the proofs on rights of property or usage of building site; building license, ceding of structure building
X week lectures	Documents on the structure. Way of keeping documents, tech-economic study paper, monthly operative plan, building diary, measurement book, controllers’ book, protocols: marking of urban lot, on control of foundation pit, on control of foundation, on cate
X week exercises	Documents on the structure. Way of keeping documents, tech-economic study paper, monthly operative plan, building diary, measurement book, controllers’ book, protocols: marking of urban lot, on control of foundation pit, on control of foundation, on cate
XI week lectures	Way of keeping documents –protocols on control: anchors in marking the axis of columns, of steel columns, crane lanes and tracks, hidden works, study paper on quality control,
XI week exercises	Way of keeping documents –protocols on control: anchors in marking the axis of columns, of steel columns, crane lanes and tracks, hidden works, study paper on quality control,
XII week lectures	Documents on the structure: keep a record of techn.doc., official reports, commissions’ minutes, reports on work and results, requests’ of constructors, correspondence
XII week exercises	Documents on the structure: keep a record of techn.doc., official reports, commissions’ minutes, reports on work and results, requests’ of constructors, correspondence
XIII week lectures	Technical review: preparation, procedure, usage license, statement of account and takeover of structure; Guarantee deadline. Management of the test production.
XIII week exercises	Technical review: preparation, procedure, usage license, statement of account and takeover of structure; Guarantee deadline. Management of the test production.
XIV week lectures	Organization of projects management; models of management and direction by Investors and Constructors
XIV week exercises	Organization of projects management; models of management and direction by Investors and Constructors
XV week lectures	SECOND TEST
XV week exercises	SECOND TEST

Student workload	Weekly 4.0 credits x 40/30 = 5 hours 20min Total workload for the course 4.0x30 = 120 hours
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	To regularly attend lectures and exercises, take tests
Consultations	Throughout the semester continuously
Literature	1. P. Đuranović: Upravljanje investicionim projektima, Građevinski fakultet, Podgorica, 2003. 2. P. Đuranović: Projektovanje organizacije građenja, Građevinski fakultet i Kulturno prosvjetna zajednica, Podgorica, 1995. 3. P. Đuranović: Menadžment u građevinarstvu, skripta, Građevinski fakultet, Podgorica, 2000. 4. B. Ivković, B. Popović: Upravljanje projektima u građevinarstvu, Jugoimport- SDPR i IP Nauka, Beograd, 1995.
Examination methods	- Attendance at the lectures = 3 points - Seminar paper = 7 points - Preliminary exam 2x 20 = 40 points - Final exam = 50 points - Sufficient mark is got if you collect 51 points
Special remarks
Comment	Further information can be got at the subject teacher, manager of the study program, and at the vice-dean for teaching courses

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / ENGINEERING HYDROLOGY

Course:

ENGINEERING HYDROLOGY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11939	Obavezan	1	5	2+1+1

Programs
Prerequisites
Aims	Acquiring basic knowledge of hydraulics with emphasis on application in construction
Learning outcomes	1. After completing this course, the student will be able to: 2. Calculate the hydrostatic force on flat and curved surfaces 3. Calculate the friction force and all energy losses in the pipeline 4. Perform hydraulic calculation of short structures: foundations, sharp-edged spillways, practical profile spillways, evacuation organ overflows 5. Calculates the hydraulics of a wide threshold, manhole overflow, bridge narrowing 6. Calculates various types of rapid flow, as well as lateral overflow
Lecturer / Teaching assistant
Methodology	Lectures, exercises, colloquiums

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction. Characteristics of fluids.
I week exercises	Introduction. Characteristics of fluids.
II week lectures	Hydrostatics. Change in pressure depending on the position. Pressure measurements.
II week exercises	Hydrostatics. Change in pressure depending on the position. Pressure measurements.
III week lectures	Hydrostatic forces on solid boundary surfaces.
III week exercises	Hydrostatic forces on solid boundary surfaces.
IV week lectures	The effect of pressure on flat and curved surfaces - pressure force.
IV week exercises	The effect of pressure on flat and curved surfaces - pressure force.
V week lectures	Basic concepts of fluid dynamics. The equation of conservation of mass. Dynamic equation (Equation of momentum)
V week exercises	The equation of conservation of mass. The momentum equation.
VI week lectures	Energy equation.
VI week exercises	Energy equation.
VII week lectures	Friction. Energy losses.
VII week exercises	Friction. Energy losses.
VIII week lectures	Friction during uniform flow in a pipe. Local energy losses.
VIII week exercises	Friction during uniform flow in a pipe. Local energy losses.
IX week lectures	COLLOQUIUM I
IX week exercises	COLLOQUIUM I
X week lectures	Hydrodynamic resistances
X week exercises	Hydrodynamic resistances
XI week lectures	Shape resistances.
XI week exercises	Shape resistances.
XII week lectures	Flow in open streams. Hydraulic jump.
XII week exercises	Flow in open streams. Hydraulic jump.
XIII week lectures	Uneven flow. Level line shapes.
XIII week exercises	Uneven flow. Level line shapes.
XIV week lectures	Highlighting below the constitution. Overflow over a wide threshold
XIV week exercises	Highlighting below the constitution. Overflow over a wide threshold
XV week lectures	colloquium II
XV week exercises	colloquium II

Student workload	Classes and final exam: 6 hour(s) i 40 minutes x 16 =106 hour(s) i 40 minutes Necessary preparation before the beginning of the semester administration, registration, certification): 6 hour(s) i 40 minutes x 2 =13 hour(s) i 20 minutes Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the exam period, including taking the remedial exam from 0 to 30 hours (remaining time he first two items to the total load for the item) 30 hour(s) i 0 minutes Workload structure: 106 hour(s) i 40 minutes (courses), 13 hour(s) minutes (preparation), 30 hour(s) i 0 minutes (additional work)
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	Weekly 6.0 credits x 40/30 = 8 hours Total workload for the subject 6.0x30 = 180 hours
Consultations
Literature	D. Prodanović: Mehanika fluida za studente Građevinskog fakulteta. Građevinski fakultet u Beogradu.2007. G.Hajdin: Mehanika fluida-Uvodjenje u hidrauliku.Građevinski fakultet, Beograd. 2001. Č.Maksimović. Zbirka zadataka iz mehanike fluida. Građevinski fakultet, Beograd, 1995. Dopunska literatura : B. Batinić : Hidraulika, Građevinski fakultet, Beograd, 1993. M. Radojković:Stacionarno strujanje u otvorenim tokovima prizmatičnog preseka,Građevinski fakultet, BG,1978 B. Batinić, M. Radojković: Zbirka rešenih ispitnih zadataka iz hidraulike", Građevinski fakultet, Beograd, 1981
Examination methods	Knowledge is checked continuously during the semester and at the final exam. The maximum possible number of points is 100, the colloquium 50 points and the final exam 50 points
Special remarks	One part of the exercises must be done in the hydraulic laboratory. Laboratory practice requires mandatory attendance.
Comment	Additional information about the subject can be obtained from the subject teacher, associate, head of the study program and from the vice dean for teaching

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / HYDROLOGY

Course:

HYDROLOGY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11940	Obavezan	1	5	2+1+1

Programs
Prerequisites
Aims	Gaining basic knowledge of hydrology with an emphasis on building applications
Learning outcomes
Lecturer / Teaching assistant	Dr Goran Sekulić – prof.
Methodology	Lectures, exercise, graphic works, colloquiums

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction, hydrologic cycle.
I week exercises	Introduction, hydrologic cycle.
II week lectures	Water balance; hydrological data; Weather Service.
II week exercises	Water balance; hydrological data; Weather Service.
III week lectures	Hydrometeorology: atmospheric processes; climate and weather; measurement and analysis of meteorological variables: temperature, humidity, pressure, wind, evaporation.
III week exercises	Hydrometeorology: atmospheric processes; climate and weather; measurement and analysis of meteorological variables: temperature, humidity, pressure, wind, evaporation.
IV week lectures	Precipitation, origin, measurement and analysis.
IV week exercises	Precipitation, origin, measurement and analysis.
V week lectures	Hydrological systems and processes: hydrological systems and subsystems; basin as a system; physical parameters.
V week exercises	Hydrological systems and processes: hydrological systems and subsystems; basin as a system; physical parameters.
VI week lectures	Process parameters
VI week exercises	Process parameters
VII week lectures	FREE WEEK
VII week exercises	FREE WEEK
VIII week lectures	COLLOQUIUM I
VIII week exercises	COLLOQUIUM I
IX week lectures	Hydrometry, surveillance networks; measurement / observation of basic hydrological parameters.
IX week exercises	Hydrometry, surveillance networks; measurement / observation of basic hydrological parameters.
X week lectures	The basic data processing, hydrograph, hydrograph, flow curves; fault frequency and duration
X week exercises	The basic data processing, hydrograph, hydrograph, flow curves; fault frequency and duration
XI week lectures	Runoff Modelling: component hydrograph; Types of hydrological models.
XI week exercises	Runoff Modelling: component hydrograph; Types of hydrological models.
XII week lectures	Large and small water.
XII week exercises	Large and small water.
XIII week lectures	Regional analysis.
XIII week exercises	Regional analysis.
XIV week lectures	Probably the maximum precipitation and runoff.
XIV week exercises	Probably the maximum precipitation and runoff.
XV week lectures	COLLOQUIUM II
XV week exercises	COLLOQUIUM II

Student workload	Week 4.5 credits x 40/30 = 6 hours Total work hours for the course 4.5x30 = 135 hours
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods	Knowledge checking is carried out continuously throughout the semester and the final exam. The minimum level of knowledge during the semester for pass rate is 51 points. The maximum possible number of points is 100 / semester.
Special remarks	One part of the exercise must be carried out in the hydraulic laboratory. Laboratory training requires mandatory attendance at all sessions.
Comment	Additional information can be obtained at the present teachers, assistants, head of the study program with Dean for Academic Affairs.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION MANAGEMENT

Course:

CONSTRUCTION MANAGEMENT/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11941	Obavezan	1	5	3+1+1

Programs
Prerequisites	None
Aims	Acquisition of knowledge in management theory, organizational behavior, human resource management, leadership, business ethics, negotiation, and decision-making in construction
Learning outcomes	After passing this exam, the student will be able to: 1. Master basic concepts in construction management. 2. Understand management functions and levels generally, particularly in the construction industry. 3. Possess knowledge in strategic management, motivation theories, and leadership. 4. Apply acquired knowledge directly in management tasks in the company and on construction sites.
Lecturer / Teaching assistant	Prof. dr Miloš Knežević Mr Mladen Gogić
Methodology	Lectures and consultations, visits to construction companies

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction; Definition, genesis, functions, and classification of management, historical development, management schools
I week exercises	Preparation for exercises. Basic instructions.
II week lectures	Management functions - Planning; Levels of planning, planning methods: PRECEDENCE method, PERT method, relationship method of planning, resources, finances within construction companies
II week exercises	Seminar paper, consultations, and review.
III week lectures	Management functions - Organizing; Basic principles, definitions, conditions, and possible organizational models; Sustainable development
III week exercises	Seminar paper, consultations, and review.
IV week lectures	Division of labor and specialization in construction
IV week exercises	Seminar paper, consultations, and review.
V week lectures	Definition of organization, organization functioning, organizational means.
V week exercises	Seminar paper, consultations, and review.
VI week lectures	Organizational behavior and human resource management
VI week exercises	Seminar paper, consultations, and review.
VII week lectures	FIRST TEST
VII week exercises	FIRST TEST
VIII week lectures	Management functions - Leading; Definition of leadership and leadership; Basic qualities of successful leadership; Leadership and management styles
VIII week exercises	Seminar paper, consultations, and review.
IX week lectures	Motivational processes and motivation for work
IX week exercises	Seminar paper, consultations, and review.
X week lectures	Management functions - Control and coordination; Control of the production process in construction; Coordination.
X week exercises	Seminar paper, consultations, and review.
XI week lectures	Strategic management; Definition, goal, division, classification, and role in the functioning of construction companies. Competitive behavior in design and construction processes
XI week exercises	Seminar paper, consultations, and review.
XII week lectures	Negotiation strategies and techniques and conducting business meetings.
XII week exercises	Seminar paper, consultations, and review.
XIII week lectures	Communication and information processes; Making business decisions.
XIII week exercises	Seminar paper, consultations, and review.
XIV week lectures	SECOND TEST
XIV week exercises	SECOND TEST
XV week lectures	Evaluation of seminar paper
XV week exercises	Evaluation of seminar paper

Student workload	Weekly: 5 credits x 40/30 = 6 hours and 40 minutes Structure: 3 hours of lectures 1 hour of exercises 1 hour of individual exercises 1 hour and 40 minutes of independent study. During the semester: Teaching and final exam: (6 hours 40 minutes) x 16 = 106 hours 40 minutes Preparation before the semester begins (administration, registration, verification): 2 x (6 hours and 40 minutes) = 13 hours and 20 minutes Total workload for the subject 5x30 = 150 hours Additional work for exam preparation in the makeup exam period, including taking the makeup exam, from 0 to 30 hours (remaining time from the first two items to the total workload for the subject 150 hours) Workload structure: 106 hours and 40 minutes (Teaching) + 13 hours and 20 minutes (Preparation) + 30 hours (Additional work)
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 1 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	To regularly attend lectures and exercises, take tests
Consultations	Throughout the semester continuously
Literature	V. Novakovic: Management in Contemporary Construction, Izgradnja, Belgrade, 2003. P. Duranovic: Management of Investment Projects, Faculty of Civil Engineering, Podgorica, 2003. B. Masic: Strategic Management, University "Braca Karic", Belgrade, 2001. P. Duranovic: Construction Management, script, Faculty of Civil Engineering, Podgorica, 2000. G. Cirovic: Business Process Reengineering, Faculty of Civil Engineering, Belgrade, 1999.
Examination methods	Minimum and maximum points that a student can achieve within the elements that are graded, where the student must achieve the prescribed minimum number of points for each element: • Attendance at lectures and exercises: 1 to 5 points • First test: 10 to 20 points • Second test: 10 to 20 points • Final exam: 5 to 50 points A passing grade is obtained if at least 50 points are accumulated. Both the minimum and maximum points are given. Tests and final exams are written. A passing grade is obtained if 50 points are accumulated.
Special remarks
Comment	Further information about the course can be got from the teacher, assistant, manager of the study program , vice-dean for teaching courses.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR CIVIL ENG. STRUCTURES

Course:

CONSTRUCTION TECHNOLOGY FOR CIVIL ENG. STRUCTURES/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11943	Obavezan	2	5	2+1+1

Programs
Prerequisites
Aims	Students should learn basic categories and concepts from technologies of civil engineering
Learning outcomes
Lecturer / Teaching assistant	Dr Željka Beljkaš - professor Mr Mladen Gogić - assistant
Methodology	Lectures, seminar paper, preliminary exam.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Generally on technologies of civil engineering construction, preparatory and earth works (geodetic works, site clean-up, soil categorization, site organization).
I week exercises	Generally on technologies of civil engineering construction, preparatory and earth works (geodetic works, site clean-up, soil categorization, site organization).
II week lectures	Execution of earth works, constructional plant for excavation, and loading.
II week exercises	Execution of earth works, constructional plant for excavation, and loading.
III week lectures	Constructional plant for compaction.
III week exercises	Constructional plant for compaction.
IV week lectures	Making of cuts and embankments.
IV week exercises	Making of cuts and embankments.
V week lectures	Deformation, repair and insurance of road base.
V week exercises	Deformation, repair and insurance of road base.
VI week lectures	Slopes protection and stabilization of landslide.
VI week exercises	Slopes protection and stabilization of landslide.
VII week lectures	FREE WEEK
VII week exercises	FREE WEEK
VIII week lectures	Noise protection. PRELIMINARY EXAM
VIII week exercises	Noise protection. PRELIMINARY EXAM
IX week lectures	Traffic equipment and traffic safety.
IX week exercises	Traffic equipment and traffic safety.
X week lectures	Asphalt works. PREPARATORY EXAM
X week exercises	Asphalt works. PREPARATORY EXAM
XI week lectures	Procedures of cool recycling in rehabilitation of asphalt road structures.
XI week exercises	Procedures of cool recycling in rehabilitation of asphalt road structures.
XII week lectures	Procedures of warm recycling in recycling of asphalt road structures.
XII week exercises	Procedures of warm recycling in recycling of asphalt road structures.
XIII week lectures	Procedures of warm recycling in recycling of asphalt road structures.
XIII week exercises	Procedures of warm recycling in recycling of asphalt road structures.
XIV week lectures	Application of geo-synthetic materials in civil engineering construction.
XIV week exercises	Application of geo-synthetic materials in civil engineering construction.
XV week lectures	Technology of construction and reconstruction of railways
XV week exercises	Technology of construction and reconstruction of railways

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	Weekly 7.0 credits x 40/30 = 9 hours 20 min. Total workload for the course 7.0x30 = 210 hours
Consultations
Literature
Examination methods	- Attendance of teaching courses to 5 point - Seminar paper 1 x 20 = 20 points - Preliminary exam 1 x 25 = 25 points - Final exam = 50 points - Sufficient mark is got if you collect 51 point.
Special remarks
Comment	Further information can be got at the course teacher, assistant, manager of the study program, and at the vice-dean for teaching courses.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / FUNDAMENTALS OF URBAN PLANNING

Course:

FUNDAMENTALS OF URBAN PLANNING/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11956	Obavezan	3	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR HYDROENERGETIC STRUCT.

Course:

CONSTRUCTION TECHNOLOGY FOR HYDROENERGETIC STRUCT./

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11969	Obavezan	2	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes	Students should introduce with basic categories and concepts from the area of Organization and building technology.
Lecturer / Teaching assistant	Dr Ratko Mitrović - professor Mr Mladen Gogić - assistant
Methodology	Lectures, consultations, seminar papers

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Bases of hydroenergetic structures.
I week exercises	Bases of hydroenergetic structures.
II week lectures	Generally about the technologies for hydroenergetic structures construction.
II week exercises	Generally about the technologies for hydroenergetic structures construction.
III week lectures	Generally about the technologies for hydroenergetic structures construction.
III week exercises	Generally about the technologies for hydroenergetic structures construction.
IV week lectures	Generally about the technologies for hydroenergetic structures construction.
IV week exercises	Generally about the technologies for hydroenergetic structures construction.
V week lectures	Technology of high dams construction.
V week exercises	Technology of high dams construction.
VI week lectures	Techngh daology of hims construction.
VI week exercises	Techngh daology of hims construction.
VII week lectures	FREE WEEK
VII week exercises	FREE WEEK
VIII week lectures	Construction of earth dams.
VIII week exercises	Construction of earth dams.
IX week lectures	Construction of mini hydropower plant.
IX week exercises	Construction of mini hydropower plant.
X week lectures	Construction of gravity dam.
X week exercises	Construction of gravity dam.
XI week lectures	Methods of construction of accumulation and injection.
XI week exercises	Methods of construction of accumulation and injection.
XII week lectures	Technologies of supporting structures construction at hydropower plant building. PRELIMINARY EXAM
XII week exercises	Technologies of supporting structures construction at hydropower plant building. PRELIMINARY EXAM
XIII week lectures	Protection of measures during hydropower structures construction.
XIII week exercises	Protection of measures during hydropower structures construction.
XIV week lectures	Planning of hydropower structures construction.
XIV week exercises	Planning of hydropower structures construction.
XV week lectures	Proces of optimization of different technologies of hydroenergetic structures construction.
XV week exercises	Proces of optimization of different technologies of hydroenergetic structures construction.

Student workload	Weekly 7 credits x 40/30 = 9 hours and 20 min. Total workload for the course 7.0x30 = 210 hours
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature	Branislav Đorđević – Hidrenergetska postrojenja V. Jefemov – Betosnki i armirano betonski radovi kod gradnje hidrelktrana
Examination methods	- Seminar papers – 1 x 25 = 25 points - Preliminary exam 1 x 25 = 25 points - Final exam = 50 points - Sufficient mark is got if you collect 51 points
Special remarks	Lectures are performed in the hall (for the all enrolled). The exercises are performed in the group per 10 students, that is in dependance on number of places in the computer hall
Comment	Further information can be got at the teacher, assistant, manager of the study program and vice-dean for technically courses.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR BUILDINGS

Course:

CONSTRUCTION TECHNOLOGY FOR BUILDINGS/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11970	Obavezan	2	5	3+1+1

Programs
Prerequisites	No
Aims	Acquaintance students with the technology of construction works, principles, methods, and how to use materials, equipment, and machines to execute technological processes in high-rise construction.
Learning outcomes	1. Identifies and solves technological problems in building; 2. Analyzes the technological processes of construction and their interdependencies; 3. Rules the technology of concrete works and recognizes different types of formwork assemblies; 4. Recognizes the systems, principles, and methods of prefabricated construction; 5. Recognizes the technological characteristics of craft works, their mutual dependence, and conditions for ensuring quality. 6. Leads the construction of high-rise buildings.
Lecturer / Teaching assistant	Associate Prof. Radmila Sinđić Grebović, PhD, Grad.Civ.Eng.
Methodology	Lectures, exercises, semester work, visits to construction sites, and consultations.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Basic terms. Analysis of construction technology and technological processes. Presentation of the mutual dependencies of the characteristics of the building, construction system, and construction methods. Types and divisions of works.
I week exercises	Semester work. Explanation of the task. Basic instructions for making.
II week lectures	Preparatory works. Earthworks technology and its impact on building construction.
II week exercises	Preparation of detailed descriptions of works with preliminary measurements, including proof of measurements.
III week lectures	Carpentry works. Formwork and scaffolding. Reinforcement works: Fabrication of reinforcement and execution of reinforcement works.
III week exercises	Technological process map for earthworks, carpentry, and reinforcement works.
IV week lectures	Technology of concrete works – design of concrete mixes and production of concrete.
IV week exercises	Completion of the technological process map for concrete and masonry works. A more comprehensive selection of machines that are used in the construction of a given object.
V week lectures	Transport of concrete. Installation methods. Concrete in winter and summer conditions. Shotcrete. Concrete processing.
V week exercises
VI week lectures	Technological features of crafts, their mutual dependence, and quality assurance conditions.
VI week exercises	Maps of the technological process for the execution of final and craft works
VII week lectures	Traditional building systems. Semi-prefabricated building systems.
VII week exercises	Overview of the semester assignment.
VIII week lectures	COLLOQUIUM I
VIII week exercises	COLLOQUIUM I
IX week lectures	Systems of prefabricated construction. Principles of prefabricated construction. Methods of performing assembly works.
IX week exercises	Prescribing the method of performing rough construction works.
X week lectures	Constructions of prefabricated concrete buildings.
X week exercises	Prescribing the method of execution of finishing and craft works.
XI week lectures	Prefabrication of prefabricated elements. Assembly tools. Transport, assembly methods.
XI week exercises	Prescribing the method of performing assembly works.
XII week lectures	Assembly works project. Execution of assembly works. Examples and practical installation instructions for different types of objects.
XII week exercises	Presentation of alternative solutions for building construction, which is the subject of the semester assignment concerning construction technology and applied materials
XIII week lectures	Modeling and optimization of the construction process of prefabricated buildings.
XIII week exercises	Assembly works project. Execution of assembly works. Examples and practical instructions for assembling different types of high-rise buildings.
XIV week lectures	Contemporary examples of construction technology in practice. Tall buildings: structural systems, construction technology, trends, and perspectives.
XIV week exercises	Review and submission of semester work.
XV week lectures	COLLOQUIUM II. Presentation and evaluation of semester work.
XV week exercises	COLLOQUIUM II. Presentation and evaluation of semester work.

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 1 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	Students must attend classes, complete, submit, and defend a semester paper, pass colloquiums, and a final exam (seminar paper).
Consultations
Literature	Dragan Arizanović - Tehnologija građevinskih radova - Milan Trivunić, Jasmina Dražić – Montaža betonskih konstrukcija zgrada, AGM Knjiga Beograd 2009 Goran Ćirović, Snežana Mitrović – Tehnologija građenja treće izmenjeno izdanje, AGM knjiga, Beograd 2015 R. Chudley, R. Greeno – Building Construction Handbook, Elsevier, 2008 Shetty M.S. - Concrete Technology – Theory and Practice, Sixth edition 2005, S.Chand&Company Ltd., New Delhi S.W. Nunnally – Construction Methods and Management, Seventh edition 2007, Pearson, Prentice Hall,
Examination methods	- timely and regular fulfillment of obligations during classes: up to 3 points - semester paper preparation + defense 12+25 points - colloquiums: 2 x 15 = 30 points - final exam: 30 points
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / TECHNOLOGY OF STRUCTURES RECONSTRUCTION

Course:

TECHNOLOGY OF STRUCTURES RECONSTRUCTION/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11971	Obavezan	2	6	3+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
6 credits x 40/30=8 hours and 0 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 3 hour(s) i 0 minuts of independent work, including consultations	Classes and final exam: 8 hour(s) i 0 minuts x 16 =128 hour(s) i 0 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 8 hour(s) i 0 minuts x 2 =16 hour(s) i 0 minuts Total workload for the subject: 6 x 30=180 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 36 hour(s) i 0 minuts Workload structure: 128 hour(s) i 0 minuts (cources), 16 hour(s) i 0 minuts (preparation), 36 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / BUSINESS PSYCHOLOGY

Course:

BUSINESS PSYCHOLOGY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11972	Obavezan	2	4	2+1+0

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
4 credits x 40/30=5 hours and 20 minuts 2 sat(a) theoretical classes 0 sat(a) practical classes 1 excercises 2 hour(s) i 20 minuts of independent work, including consultations	Classes and final exam: 5 hour(s) i 20 minuts x 16 =85 hour(s) i 20 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 5 hour(s) i 20 minuts x 2 =10 hour(s) i 40 minuts Total workload for the subject: 4 x 30=120 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 24 hour(s) i 0 minuts Workload structure: 85 hour(s) i 20 minuts (cources), 10 hour(s) i 40 minuts (preparation), 24 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION CODES AND REGULATIONS

Course:

CONSTRUCTION CODES AND REGULATIONS/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11973	Obavezan	2	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / FUNDAMENTALS OF GEOLOGY AND GEODESY

Course:

FUNDAMENTALS OF GEOLOGY AND GEODESY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11974	Obavezan	1	4	2+1+0

Programs
Prerequisites	None.
Aims	Acquiring knowledge in the field of geology and geodesy.
Learning outcomes	Learning outcomes upon passing this exam, the student will be able to: 1. Distinguish different types of minerals and rocks, and understand their basic characteristics; 2. Distinguish tectonic forms; 3. Read geological, engineering-geological, and hydrogeological maps; 4. Differentiate rocks according to engineering-geological characteristics and conditions for founding objects; 5. Understand hydrogeological and geodynamic characteristics of different areas; 6. Know the methods for designing the earths surface on a projection plane; 7. Know the methods and instruments for creating a topographic base; 8. Know the way to use the topographic base in designing construction objects; 9. Can contract and control the creation of a topographic base and the transfer of a project to the field; 10. Understand the method of creating and maintaining a real estate cadastre as a unique record of ownership.
Lecturer / Teaching assistant	Prof. Dr Milan Radulović, Prof. Dr Radovan Đurović
Methodology	Lectures, exercises, graphical and seminar work, field trips, colloquiums.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction. Earth structure. Global tectonics of plates. Mineralogy.
I week exercises	Introduction. Earth structure. Global tectonics of plates. Mineralogy.
II week lectures	Rocks of the Earths crust: igneous, sedimentary, and metamorphic rocks.
II week exercises	Rocks of the Earths crust: igneous, sedimentary, and metamorphic rocks.
III week lectures	Tectonics. Folds and faults, overthrusts, strike and dip. Geological, Engineering-geological and hydrogeological maps.
III week exercises	Tectonics. Folds and faults, overthrusts, strike and dip. Geological, Engineering-geological and hydrogeological maps.
IV week lectures	Engineering-geological categorisation of rocks. Methodology for ground investigations for construction purposes.
IV week exercises	Engineering-geological categorisation of rocks. Methodology for ground investigations for construction purposes.
V week lectures	Basics of hydrogeology. Groundwater. Hydrogeological functions of rock masses. Aquifers.
V week exercises	Basics of hydrogeology. Groundwater. Hydrogeological functions of rock masses. Aquifers.
VI week lectures	Watersheds. Hydrogeological phenomena. Groundwater flow.
VI week exercises	Watersheds. Hydrogeological phenomena. Groundwater flow.
VII week lectures	Basics of geodynamics.
VII week exercises	Basics of geodynamics.
VIII week lectures	Colloquium I
VIII week exercises	Colloquium I
IX week lectures	Introduction and historical development of geodesy. Geographic and rectangular coordinates. Gaus Krügers projection.
IX week exercises	Introduction and historical development of geodesy. Geographic and rectangular coordinates. Gaus Krügers projection.
X week lectures	Division of the projection plane into scale sheets. State coordinate system.
X week exercises	Division of the projection plane into scale sheets. State coordinate system.
XI week lectures	Characteristics of instruments for measuring lengths and angles. Data collection methods. Length orientation in the plane and space.
XI week exercises	Characteristics of instruments for measuring lengths and angles. Data collection methods. Length orientation in the plane and space.
XII week lectures	Levelling. The division into trigonometric and geometric levels. Level, basic characteristics.
XII week exercises	Levelling. The division into trigonometric and geometric levels. Level, basic characteristics.
XIII week lectures	Project transfer to the field. Polar, GPS method.
XIII week exercises	Project transfer to the field. Polar, GPS method.
XIV week lectures	Real estate cadastre, property list. Maintenance of real estate cadastre data.
XIV week exercises	Real estate cadastre, property list. Maintenance of real estate cadastre data.
XV week lectures	Colloquium II
XV week exercises	Colloquium II

Student workload	Weekly: 4 credits x 40/30 = 5.33 hours Total subject workload: 4 x 30 = 120 hours
Per week	Per semester
4 credits x 40/30=5 hours and 20 minuts 2 sat(a) theoretical classes 0 sat(a) practical classes 1 excercises 2 hour(s) i 20 minuts of independent work, including consultations	Classes and final exam: 5 hour(s) i 20 minuts x 16 =85 hour(s) i 20 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 5 hour(s) i 20 minuts x 2 =10 hour(s) i 40 minuts Total workload for the subject: 4 x 30=120 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 24 hour(s) i 0 minuts Workload structure: 85 hour(s) i 20 minuts (cources), 10 hour(s) i 40 minuts (preparation), 24 hour(s) i 0 minuts (additional work)
Student obligations	Attendance, preparation of graphical papers, and taking the colloquiums.
Consultations	Monday, 1-3 pm
Literature	1. Radulović M.: Osnovi geologije. Univerzitet Crne Gore, Građevinski fakultet, Podgorica, 2003 2. Čvorović M: Autorizovana predavanja, Podgorica, 2003 3. Website of the faculty, link http://www.gf.ac.me/predmet.php?id=47
Examination methods	- Attendance to lectures and exercises: max 4 pt; - Graphical paper: max 6 pt; - Colloquiums: max 40 pt; - Final exam: max 50 pt; - Pass requires a minimum 50 pt.
Special remarks
Comment	Further information about the Subject can be required from the lecturer, assistant, head of the study program and vice dean of academic affairs.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / INTRODUCTION TO CIVIL ENGINEERING PROJECTS

Course:

INTRODUCTION TO CIVIL ENGINEERING PROJECTS/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11975	Obavezan	1	6	3+2+0

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
6 credits x 40/30=8 hours and 0 minuts 3 sat(a) theoretical classes 0 sat(a) practical classes 2 excercises 3 hour(s) i 0 minuts of independent work, including consultations	Classes and final exam: 8 hour(s) i 0 minuts x 16 =128 hour(s) i 0 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 8 hour(s) i 0 minuts x 2 =16 hour(s) i 0 minuts Total workload for the subject: 6 x 30=180 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 36 hour(s) i 0 minuts Workload structure: 128 hour(s) i 0 minuts (cources), 16 hour(s) i 0 minuts (preparation), 36 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / BUILDING MATERIALS AND PRODUCTS

Course:

BUILDING MATERIALS AND PRODUCTS/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11976	Obavezan	1	4	2+0+1

Programs
Prerequisites	None
Aims	Familiarization with methods of testing and evaluation of material properties. Selection of appropriate materials for various applications in construction.
Learning outcomes	After passing this exam, students can: 1. Determine the necessary characteristics of materials and choose a suitable material according to its purpose. 2. Understand the common behaviors of some important materials and their properties. 3. They recognize possible problems when using certain materials and propose solutions.
Lecturer / Teaching assistant	Associate prof. Radmila Sinđić Grebović, CE
Methodology	Lectures, exercises, laboratory exercises, tests, review class.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction – Concepts. Explanations of regulations and basic standards.
I week exercises	Introduction – Concepts. Explanations of regulations and basic standards.
II week lectures	Classification of materials. Basic parameters for material selection; properties and application.
II week exercises	Classification of materials. Basic parameters for material selection; properties and application.
III week lectures	Cement. Cement-based mixtures - concrete.
III week exercises	Computational and laboratory exercises.
IV week lectures	Aggregate, Additives, Properties of fresh concrete.
IV week exercises	Computational and laboratory exercises.
V week lectures	Mechanical properties of concrete, volumetric changes in concrete.
V week exercises	Mechanical properties of concrete, volumetric changes in concrete.
VI week lectures	Durability of concrete and concrete structures.
VI week exercises	Mortar and concrete testing.
VII week lectures	Concrete mix design.
VII week exercises	Calculation and laboratory exercise.
VIII week lectures	COLLOQUIUM I
VIII week exercises	COLLOQUIUM I
IX week lectures	Ceramic products in buildings and constructions.
IX week exercises	Computational and laboratory exercises.
X week lectures	Glass in buildings and construction.
X week exercises	Calculation exercise.
XI week lectures	The use of wood in constructions and structures.
XI week exercises	Calculation exercise.
XII week lectures	Polymers/plastics in building objects and constructions.
XII week exercises	Calculation exercise.
XIII week lectures	Metals and their use in construction. Steel products.
XIII week exercises	Computational and laboratory exercises.
XIV week lectures	Corrosion and protection of steel structures.
XIV week exercises	Calculation exercise.
XV week lectures	COLLOQUIUM II
XV week exercises	COLLOQUIUM II

Student workload
Per week	Per semester
4 credits x 40/30=5 hours and 20 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 0 excercises 2 hour(s) i 20 minuts of independent work, including consultations	Classes and final exam: 5 hour(s) i 20 minuts x 16 =85 hour(s) i 20 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 5 hour(s) i 20 minuts x 2 =10 hour(s) i 40 minuts Total workload for the subject: 4 x 30=120 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 24 hour(s) i 0 minuts Workload structure: 85 hour(s) i 20 minuts (cources), 10 hour(s) i 40 minuts (preparation), 24 hour(s) i 0 minuts (additional work)
Student obligations	Attendance at lectures and exercises, preparation of laboratory exercises, taking tests and colloquiums.
Consultations
Literature	1. Mihailo Muravljov: Građevinski materijali, Građevinska knjiga, Beograd, 2000. 2. Construction Products Regulation (CPR-305/2011) 3. Michael S. Mamlouk, John P. Zaniewski: “Materials for Civil and Construction Engineers”, Pearson Education, 2011.
Examination methods	-Activity 5 points - Laboratory and tests - max 15 points -Two colloquiums - max 25 points each -Final exam - max 30 points
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CIVIL ENGINEERING STRUCTURES

Course:

CIVIL ENGINEERING STRUCTURES/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11977	Obavezan	1	6	3+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
6 credits x 40/30=8 hours and 0 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 3 hour(s) i 0 minuts of independent work, including consultations	Classes and final exam: 8 hour(s) i 0 minuts x 16 =128 hour(s) i 0 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 8 hour(s) i 0 minuts x 2 =16 hour(s) i 0 minuts Total workload for the subject: 6 x 30=180 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 36 hour(s) i 0 minuts Workload structure: 128 hour(s) i 0 minuts (cources), 16 hour(s) i 0 minuts (preparation), 36 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / PROJECT MANAGEMENT

Course:

PROJECT MANAGEMENT/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11978	Obavezan	1	4	2+1+1

Programs
Prerequisites	None
Aims	Students should learn the basic concepts and methods of projects management with the special application in the field of civil engineering
Learning outcomes	After passing this exam, the student will be able to: Actively participate in managing all phases of technical documentation development in the field of civil engineering. Practically apply acquired knowledge in the area of legal regulations related to civil engineering and actively participate in the preparation of construction site documentation. Apply acquired knowledge directly on the construction site.
Lecturer / Teaching assistant	Dr Miloš Knežević - professor Mr Mladen Gogic
Methodology	Lectures, consultations

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction; Definition, specific quantity and division of investment projects, meaning of some terms; Participants in the realization of investment projects; Phases of investment projects
I week exercises	Introduction; Definition, specific quantity and division of investment projects, meaning of some terms; Participants in the realization of investment projects; Phases of investment projects
II week lectures	Project like cybernetic system. Role of consultant in projects management (in structures building ):consultants’ services, consultants’ services towards FIDIC; models of giving consult. services.
II week exercises	Project like cybernetic system. Role of consultant in projects management (in structures building ):consultants’ services, consultants’ services towards FIDIC; models of giving consult. services.
III week lectures	Project conceiving. Previous feasibility study.
III week exercises	Project conceiving. Previous feasibility study.
IV week lectures	Feasibility study. Revision. Decision of acceptance of study. Obtaining of financial funds.
IV week exercises	Feasibility study. Revision. Decision of acceptance of study. Obtaining of financial funds.
V week lectures	Project definition (making of technical documents): conditions and bases and contents .
V week exercises	Project definition (making of technical documents): conditions and bases and contents .
VI week lectures	Types of documents; teh. doc. For previous and preparatory works; ceding of making techn doc.(choice of designer); making and control of tech. doc.; agree. and keep. tec. doc.
VI week exercises	Types of documents; teh. doc. For previous and preparatory works; ceding of making techn doc.(choice of designer); making and control of tech. doc.; agree. and keep. tec. doc.
VII week lectures	FREE WEEK
VII week exercises	FREE WEEK
VIII week lectures	FIRST TEST
VIII week exercises	FIRST TEST
IX week lectures	Management of realization of investment project: getting the proofs on rights of property or usage of building site; building license, ceding of structure building
IX week exercises	Management of realization of investment project: getting the proofs on rights of property or usage of building site; building license, ceding of structure building
X week lectures	Documents on the structure. Way of keeping documents, tech-economic study paper, monthly operative plan, building diary, measurement book, controllers’ book, protocols: marking of urban lot, on control of foundation pit, on control of foundation, on cate
X week exercises	Documents on the structure. Way of keeping documents, tech-economic study paper, monthly operative plan, building diary, measurement book, controllers’ book, protocols: marking of urban lot, on control of foundation pit, on control of foundation, on cate
XI week lectures	Way of keeping documents –protocols on control: anchors in marking the axis of columns, of steel columns, crane lanes and tracks, hidden works, study paper on quality control,
XI week exercises	Way of keeping documents –protocols on control: anchors in marking the axis of columns, of steel columns, crane lanes and tracks, hidden works, study paper on quality control,
XII week lectures	Documents on the structure: keep a record of techn.doc., official reports, commissions’ minutes, reports on work and results, requests’ of constructors, correspondence
XII week exercises	Documents on the structure: keep a record of techn.doc., official reports, commissions’ minutes, reports on work and results, requests’ of constructors, correspondence
XIII week lectures	Technical review: preparation, procedure, usage license, statement of account and takeover of structure; Guarantee deadline. Management of the test production.
XIII week exercises	Technical review: preparation, procedure, usage license, statement of account and takeover of structure; Guarantee deadline. Management of the test production.
XIV week lectures	Organization of projects management; models of management and direction by Investors and Constructors
XIV week exercises	Organization of projects management; models of management and direction by Investors and Constructors
XV week lectures	SECOND TEST
XV week exercises	SECOND TEST

Student workload	Weekly 4.0 credits x 40/30 = 5 hours 20min Total workload for the course 4.0x30 = 120 hours
Per week	Per semester
4 credits x 40/30=5 hours and 20 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 1 hour(s) i 20 minuts of independent work, including consultations	Classes and final exam: 5 hour(s) i 20 minuts x 16 =85 hour(s) i 20 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 5 hour(s) i 20 minuts x 2 =10 hour(s) i 40 minuts Total workload for the subject: 4 x 30=120 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 24 hour(s) i 0 minuts Workload structure: 85 hour(s) i 20 minuts (cources), 10 hour(s) i 40 minuts (preparation), 24 hour(s) i 0 minuts (additional work)
Student obligations	To regularly attend lectures and exercises, take tests
Consultations	Throughout the semester continuously
Literature	1. P. Đuranović: Upravljanje investicionim projektima, Građevinski fakultet, Podgorica, 2003. 2. P. Đuranović: Projektovanje organizacije građenja, Građevinski fakultet i Kulturno prosvjetna zajednica, Podgorica, 1995. 3. P. Đuranović: Menadžment u građevinarstvu, skripta, Građevinski fakultet, Podgorica, 2000. 4. B. Ivković, B. Popović: Upravljanje projektima u građevinarstvu, Jugoimport- SDPR i IP Nauka, Beograd, 1995.
Examination methods	- Attendance at the lectures = 3 points - Seminar paper = 7 points - Preliminary exam 2x 20 = 40 points - Final exam = 50 points - Sufficient mark is got if you collect 51 points
Special remarks
Comment	Further information can be got at the subject teacher, manager of the study program, and at the vice-dean for teaching courses

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION MANAGEMENT

Course:

CONSTRUCTION MANAGEMENT/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11979	Obavezan	1	6	3+1+1

Programs
Prerequisites	None
Aims	Acquisition of knowledge in management theory, organizational behavior, human resource management, leadership, business ethics, negotiation, and decision-making in construction
Learning outcomes	After passing this exam, the student will be able to: 1. Master basic concepts in construction management. 2. Understand management functions and levels generally, particularly in the construction industry. 3. Possess knowledge in strategic management, motivation theories, and leadership. 4. Apply acquired knowledge directly in management tasks in the company and on construction sites.
Lecturer / Teaching assistant	Prof. dr Miloš Knežević Mr Mladen Gogić
Methodology	Lectures and consultations, visits to construction companies

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction; Definition, genesis, functions, and classification of management, historical development, management schools
I week exercises	Preparation for exercises. Basic instructions.
II week lectures	Management functions - Planning; Levels of planning, planning methods: PRECEDENCE method, PERT method, relationship method of planning, resources, finances within construction companies
II week exercises	Seminar paper, consultations, and review.
III week lectures	Management functions - Organizing; Basic principles, definitions, conditions, and possible organizational models; Sustainable development
III week exercises	Seminar paper, consultations, and review.
IV week lectures	Division of labor and specialization in construction
IV week exercises	Seminar paper, consultations, and review.
V week lectures	Definition of organization, organization functioning, organizational means.
V week exercises	Seminar paper, consultations, and review.
VI week lectures	Organizational behavior and human resource management
VI week exercises	Seminar paper, consultations, and review.
VII week lectures	FIRST TEST
VII week exercises	FIRST TEST
VIII week lectures	Management functions - Leading; Definition of leadership and leadership; Basic qualities of successful leadership; Leadership and management styles
VIII week exercises	Seminar paper, consultations, and review.
IX week lectures	Motivational processes and motivation for work
IX week exercises	Seminar paper, consultations, and review.
X week lectures	Management functions - Control and coordination; Control of the production process in construction; Coordination.
X week exercises	Seminar paper, consultations, and review.
XI week lectures	Strategic management; Definition, goal, division, classification, and role in the functioning of construction companies. Competitive behavior in design and construction processes
XI week exercises	Seminar paper, consultations, and review.
XII week lectures	Negotiation strategies and techniques and conducting business meetings.
XII week exercises	Seminar paper, consultations, and review.
XIII week lectures	Communication and information processes; Making business decisions.
XIII week exercises	Seminar paper, consultations, and review.
XIV week lectures	SECOND TEST
XIV week exercises	SECOND TEST
XV week lectures	Evaluation of seminar paper
XV week exercises	Evaluation of seminar paper

Student workload	Weekly: 5 credits x 40/30 = 6 hours and 40 minutes Structure: 3 hours of lectures 1 hour of exercises 1 hour of individual exercises 1 hour and 40 minutes of independent study. During the semester: Teaching and final exam: (6 hours 40 minutes) x 16 = 106 hours 40 minutes Preparation before the semester begins (administration, registration, verification): 2 x (6 hours and 40 minutes) = 13 hours and 20 minutes Total workload for the subject 5x30 = 150 hours Additional work for exam preparation in the makeup exam period, including taking the makeup exam, from 0 to 30 hours (remaining time from the first two items to the total workload for the subject 150 hours) Workload structure: 106 hours and 40 minutes (Teaching) + 13 hours and 20 minutes (Preparation) + 30 hours (Additional work)
Per week	Per semester
6 credits x 40/30=8 hours and 0 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 3 hour(s) i 0 minuts of independent work, including consultations	Classes and final exam: 8 hour(s) i 0 minuts x 16 =128 hour(s) i 0 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 8 hour(s) i 0 minuts x 2 =16 hour(s) i 0 minuts Total workload for the subject: 6 x 30=180 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 36 hour(s) i 0 minuts Workload structure: 128 hour(s) i 0 minuts (cources), 16 hour(s) i 0 minuts (preparation), 36 hour(s) i 0 minuts (additional work)
Student obligations	To regularly attend lectures and exercises, take tests
Consultations	Throughout the semester continuously
Literature	V. Novakovic: Management in Contemporary Construction, Izgradnja, Belgrade, 2003. P. Duranovic: Management of Investment Projects, Faculty of Civil Engineering, Podgorica, 2003. B. Masic: Strategic Management, University "Braca Karic", Belgrade, 2001. P. Duranovic: Construction Management, script, Faculty of Civil Engineering, Podgorica, 2000. G. Cirovic: Business Process Reengineering, Faculty of Civil Engineering, Belgrade, 1999.
Examination methods	Minimum and maximum points that a student can achieve within the elements that are graded, where the student must achieve the prescribed minimum number of points for each element: • Attendance at lectures and exercises: 1 to 5 points • First test: 10 to 20 points • Second test: 10 to 20 points • Final exam: 5 to 50 points A passing grade is obtained if at least 50 points are accumulated. Both the minimum and maximum points are given. Tests and final exams are written. A passing grade is obtained if 50 points are accumulated.
Special remarks
Comment	Further information about the course can be got from the teacher, assistant, manager of the study program , vice-dean for teaching courses.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR CIVIL ENG. STRUCTURES.

Course:

CONSTRUCTION TECHNOLOGY FOR CIVIL ENG. STRUCTURES./

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
11980	Obavezan	2	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR HYDROENERGETIC STRUCT.

Course:

CONSTRUCTION TECHNOLOGY FOR HYDROENERGETIC STRUCT./

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12006	Obavezan	2	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes	Students should introduce with basic categories and concepts from the area of Organization and building technology.
Lecturer / Teaching assistant	Dr Ratko Mitrović - professor Mr Mladen Gogić - assistant
Methodology	Lectures, consultations, seminar papers

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Bases of hydroenergetic structures.
I week exercises	Bases of hydroenergetic structures.
II week lectures	Generally about the technologies for hydroenergetic structures construction.
II week exercises	Generally about the technologies for hydroenergetic structures construction.
III week lectures	Generally about the technologies for hydroenergetic structures construction.
III week exercises	Generally about the technologies for hydroenergetic structures construction.
IV week lectures	Generally about the technologies for hydroenergetic structures construction.
IV week exercises	Generally about the technologies for hydroenergetic structures construction.
V week lectures	Technology of high dams construction.
V week exercises	Technology of high dams construction.
VI week lectures	Techngh daology of hims construction.
VI week exercises	Techngh daology of hims construction.
VII week lectures	FREE WEEK
VII week exercises	FREE WEEK
VIII week lectures	Construction of earth dams.
VIII week exercises	Construction of earth dams.
IX week lectures	Construction of mini hydropower plant.
IX week exercises	Construction of mini hydropower plant.
X week lectures	Construction of gravity dam.
X week exercises	Construction of gravity dam.
XI week lectures	Methods of construction of accumulation and injection.
XI week exercises	Methods of construction of accumulation and injection.
XII week lectures	Technologies of supporting structures construction at hydropower plant building. PRELIMINARY EXAM
XII week exercises	Technologies of supporting structures construction at hydropower plant building. PRELIMINARY EXAM
XIII week lectures	Protection of measures during hydropower structures construction.
XIII week exercises	Protection of measures during hydropower structures construction.
XIV week lectures	Planning of hydropower structures construction.
XIV week exercises	Planning of hydropower structures construction.
XV week lectures	Proces of optimization of different technologies of hydroenergetic structures construction.
XV week exercises	Proces of optimization of different technologies of hydroenergetic structures construction.

Student workload	Weekly 7 credits x 40/30 = 9 hours and 20 min. Total workload for the course 7.0x30 = 210 hours
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature	Branislav Đorđević – Hidrenergetska postrojenja V. Jefemov – Betosnki i armirano betonski radovi kod gradnje hidrelktrana
Examination methods	- Seminar papers – 1 x 25 = 25 points - Preliminary exam 1 x 25 = 25 points - Final exam = 50 points - Sufficient mark is got if you collect 51 points
Special remarks	Lectures are performed in the hall (for the all enrolled). The exercises are performed in the group per 10 students, that is in dependance on number of places in the computer hall
Comment	Further information can be got at the teacher, assistant, manager of the study program and vice-dean for technically courses.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR BUILDINGS

Course:

CONSTRUCTION TECHNOLOGY FOR BUILDINGS/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12007	Obavezan	2	5	3+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 1 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / TECHNOLOGY OF STRUCTURES RECONSTRUCTION

Course:

TECHNOLOGY OF STRUCTURES RECONSTRUCTION/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12008	Obavezan	2	6	3+1+1

Programs
Prerequisites	No conditionality
Aims	Acquiring knowledge in the field of technology of reconstruction, retrofitting and strengthening of facilities. Introducing students to the technology of reconstruction, retrofitting and strengthening of buildings, principles, methods and ways of using materials, equipment and machines for the execution of technological processes during reconstruction, retrofitting and strengthening.
Learning outcomes	Acquisition of knowledge in the field of technology of reconstruction of facilities and production processes which are realized, first of all, construction works on reconstruction. Training for the analysis of previously designed reconstruction technologies, consideration of their most important technological characteristics, and evaluation of these variant solutions and selection of the most suitable for the realization of the task.
Lecturer / Teaching assistant	Dr Jelena Pejovic, professor Mr Maja Laušević Odalović, teaching assistant
Methodology	Lectures, exercises, semester works, fieldwork

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Basics of facility reconstruction technologies. Basic concepts and methodology of reconstruction technology analysis. Analysis of technological processes.
I week exercises	Basics of facility reconstruction technologies. Basic concepts and methodology of reconstruction technology analysis. Analysis of technological processes.
II week lectures	Reconstruction technology of existing buildings. Types of reconstruction: Upgrading, strengthening, reconstruction of a damaged buildings.
II week exercises	Reconstruction technology of existing buildings. Types of reconstruction: Upgrading, strengthening, reconstruction of a damaged buildings.
III week lectures	Technology of reconstruction, retrofitting and strengthening of stone and masonry buildings. Rehabilitation of earthquake-damaged buildings.
III week exercises	Technology of reconstruction, retrofitting and strengthening of stone and masonry buildings. Rehabilitation of earthquake-damaged buildings.
IV week lectures	Technology of reconstruction, retrofitting and strengthening of wooden buildings.
IV week exercises	Technology of reconstruction, retrofitting and strengthening of wooden buildings.
V week lectures	Technology of reconstruction, retrofitting and strengthening of high-rise buildings.
V week exercises	Technology of reconstruction, retrofitting and strengthening of high-rise buildings.
VI week lectures	Technology of reconstruction, retrofitting and strengthening of industrial facilities. Rehabilitation of buildings damaged due to the aggressive action of the environment. Rehabilitation of buildings damaged due to atmospheric influences.
VI week exercises	Technology of reconstruction, retrofitting and strengthening of industrial facilities. Rehabilitation of buildings damaged due to the aggressive action of the environment. Rehabilitation of buildings damaged due to atmospheric influences.
VII week lectures	Technology of reconstruction, retrofitting and strengthening of bridges.
VII week exercises	Technology of reconstruction, retrofitting and strengthening of bridges.
VIII week lectures	Testing of knowledge
VIII week exercises	Testing of knowledge
IX week lectures	Technology of reconstruction, retrofitting and strengthening of buildings on roads.
IX week exercises	Technology of reconstruction, retrofitting and strengthening of buildings on roads.
X week lectures	Technology of reconstruction, retrofitting and strengthening of hydro-power facilities.
X week exercises	Technology of reconstruction, retrofitting and strengthening of hydro-power facilities.
XI week lectures	Technology of reconstruction, retrofitting and strengthening of underground structures.
XI week exercises	Technology of reconstruction, retrofitting and strengthening of underground structures.
XII week lectures	Rehabilitation of the terrain. Rehabilitation of unstable terrain on which the facility was founded. Landslide remediation. Rehabilitation of slopes and cuts.
XII week exercises	Rehabilitation of the terrain. Rehabilitation of unstable terrain on which the facility was founded. Landslide remediation. Rehabilitation of slopes and cuts.
XIII week lectures	Modern examples of reconstruction technology in practice. Development of new materials for rehabilitation and strengthening. Trends and perspectives. Special regulations governing reconstructions.
XIII week exercises	Modern examples of reconstruction technology in practice. Development of new materials for rehabilitation and strengthening. Trends and perspectives. Special regulations governing reconstructions.
XIV week lectures	Planning the construction of reconstruction, rehabilitation and strengthening of facilities.
XIV week exercises	Planning the construction of reconstruction, rehabilitation and strengthening of facilities.
XV week lectures	Testing of knowledge.
XV week exercises	Testing of knowledge.

Student workload	Weekly 6 credits x 40/30 = 8.0 hours Structure: 3 hours of lectures 2 hours of exercise 3 hours of independent work, including consultations
Per week	Per semester
6 credits x 40/30=8 hours and 0 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 3 hour(s) i 0 minuts of independent work, including consultations	Classes and final exam: 8 hour(s) i 0 minuts x 16 =128 hour(s) i 0 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 8 hour(s) i 0 minuts x 2 =16 hour(s) i 0 minuts Total workload for the subject: 6 x 30=180 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 36 hour(s) i 0 minuts Workload structure: 128 hour(s) i 0 minuts (cources), 16 hour(s) i 0 minuts (preparation), 36 hour(s) i 0 minuts (additional work)
Student obligations	Attendance at lectures and exercises, making semester works.
Consultations
Literature	Task Group 9.3 , Externally bonded FRP reinforcement for RC structures fib CEB-FIP Bulletin 14 Swizerland,2001 fib Bulletin No 34: Model Code for Service Life Design, Swizerland,2006
Examination methods	Knowledge and understanding shown during the exercises 0 do 15 Semesteral work 0 do 15 Theoretical part of the final exam 0 do 30 Analytical part of the final exam 0 do 40
Special remarks
Comment	Additional information about the subject can be obtained from the teacher, teaching assistant, head of the study program and vice dean for teaching.

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / BUSINESS PSYCHOLOGY

Course:

BUSINESS PSYCHOLOGY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12009	Obavezan	2	4	2+1+0

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
4 credits x 40/30=5 hours and 20 minuts 2 sat(a) theoretical classes 0 sat(a) practical classes 1 excercises 2 hour(s) i 20 minuts of independent work, including consultations	Classes and final exam: 5 hour(s) i 20 minuts x 16 =85 hour(s) i 20 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 5 hour(s) i 20 minuts x 2 =10 hour(s) i 40 minuts Total workload for the subject: 4 x 30=120 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 24 hour(s) i 0 minuts Workload structure: 85 hour(s) i 20 minuts (cources), 10 hour(s) i 40 minuts (preparation), 24 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION CODES AND REGULATIONS

Course:

CONSTRUCTION CODES AND REGULATIONS/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12010	Obavezan	2	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / INTERNATIONAL TENDER PROCEDURES

Course:

INTERNATIONAL TENDER PROCEDURES/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12011	Obavezan	3	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / INTERNATIONAL TENDER PROCEDURES

Course:

INTERNATIONAL TENDER PROCEDURES/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12012	Obavezan	3	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / VALUATION OF REAL ESTATE

Course:

VALUATION OF REAL ESTATE/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12015	Obavezan	3	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / VALUATION OF REAL ESTATE

Course:

VALUATION OF REAL ESTATE/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12016	Obavezan	3	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / MODELING IN PROJECT MANAGEMENT

Course:

MODELING IN PROJECT MANAGEMENT/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12017	Obavezan	3	5	2+0+2

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 2 sat(a) practical classes 0 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / MODELING IN PROJECT MANAGEMENT

Course:

MODELING IN PROJECT MANAGEMENT/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12018	Obavezan	3	5	2+0+2

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 2 sat(a) practical classes 0 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / MANAGEMENT OF CONSTRUCTION COMPANIES

Course:

MANAGEMENT OF CONSTRUCTION COMPANIES/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12019	Obavezan	3	5	3+1+1

Programs
Prerequisites	None
Aims	Learning on theory of system and on the company like the managerial business system, forms of organization and functioning, of company services, direction of finance management indicators
Learning outcomes	After passing this exam, the student will be able to: Practically apply acquired knowledge in the field of management and actively participate in managing a construction company. Master the fundamentals of systems theory and apply it practically to the construction company as a manageable business system. Be familiar with management models, financial management, and departments in construction contracting companies. Apply acquired knowledge directly in all departments of the construction company.
Lecturer / Teaching assistant	Dr Miloš Knežević-professor
Methodology	Lectures, exercises, consultations, site visit.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction. Basic concepts from the theory of system and management of system.
I week exercises	Introduction. Basic concepts from the theory of system and management of system.
II week lectures	System engineering. Construction company like managerial business system and its surroundings.
II week exercises	System engineering. Construction company like managerial business system and its surroundings.
III week lectures	Definition and company division. Vision, mission and aims of the company.
III week exercises	Definition and company division. Vision, mission and aims of the company.
IV week lectures	Company foundation. Forms and proprietary structure (business company, capital association, public company, holding
IV week exercises	Company foundation. Forms and proprietary structure (business company, capital association, public company, holding
V week lectures	Connections of the building company with body of the state government and authorities and other institutions and organizations. Specialized firms or institutions (town planning, space planning, site …
V week exercises	Connections of the building company with body of the state government and authorities and other institutions and organizations. Specialized firms or institutions (town planning, space planning, site …
VI week lectures	FREE WEEK
VI week exercises	FREE WEEK
VII week lectures	I TEST
VII week exercises	I TEST
VIII week lectures	Functions of the construction company (production and preparation, marketing, business negotiations, research and development. Planning and control, finance, accounting, book-keeping, administrative and staff service, function of quality
VIII week exercises	Functions of the construction company (production and preparation, marketing, business negotiations, research and development. Planning and control, finance, accounting, book-keeping, administrative and staff service, function of quality
IX week lectures	Organs and organizational structure of construction company. Business units (building, sites, production plants, presentations).
IX week exercises	Organs and organizational structure of construction company. Business units (building, sites, production plants, presentations).
X week lectures	Finance management, indicators of business success (balance of state, balance of success), revision of accounting data.
X week exercises	Finance management, indicators of business success (balance of state, balance of success), revision of accounting data.
XI week lectures	Marketing in construction company.
XI week exercises	Marketing in construction company.
XII week lectures	SWOT analysis of the construction company.
XII week exercises	SWOT analysis of the construction company.
XIII week lectures	Benchmarking of construction company.
XIII week exercises	Benchmarking of construction company.
XIV week lectures	Re-engineering of business processes in construction company.
XIV week exercises	Re-engineering of business processes in construction company.
XV week lectures	II TEST
XV week exercises	II TEST

Student workload	Weekly 6 credits x 40/30 = 8 Total workload for the course 6.0x30 = 180 hours
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 1 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	Attendance at lectures and exercises, completed seminar paper.
Consultations	Throughout the semester continuously
Literature	basic: Novaković, V., Menadžment u savremenom građevinarstvu, Izgradnja, Beograd, 2003. Đuranović, P., Upravljanje građevinskim projektima, Građevinski fakultet, Podgorica, 2006. Praščević, Ž. Osnovi sistemskog inženjerstva, Građevinski fakultet, Beograd, 2008. Dutina, V., Menadžment građevinskih preduzeća, FTN, Kosovska mitrovica, 2006. dopunska: Mašić, B., Strateški menadžment, Univerzitet «Braća Karić», Beograd, 2001. Đuranović. P., Organizacija građenja, Građevinski fakultet, Podgorica, 1995. Ćirović, G., Reinženjering poslovnih procesa, Građevinski fakultet, Beograd, 1999. Kovačević, D., Menadžment preduzeća, Energoprojekt,1998
Examination methods	- attendance at lectures : 20 points - 2 preliminary exams: 30 points - final exam : ≤ 50 points - sufficient mark is got if you collect 51 points.
Special remarks	Exercies are (V) performed for the groups up to 20 students. If it is necessary, teaching courses can be performed in English. Presented materials at the lectures will be realized in practice in exercises. Each student will defense seminar paper on manag
Comment	Further information can be got at the course teacher, manager of study program and at vice-dean of teaching courses..

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / MANAGEMENT OF CONSTRUCTION COMPANIES

Course:

MANAGEMENT OF CONSTRUCTION COMPANIES/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12020	Obavezan	3	5	3+1+1

Programs
Prerequisites	None
Aims	Learning on theory of system and on the company like the managerial business system, forms of organization and functioning, of company services, direction of finance management indicators
Learning outcomes	After passing this exam, the student will be able to: Practically apply acquired knowledge in the field of management and actively participate in managing a construction company. Master the fundamentals of systems theory and apply it practically to the construction company as a manageable business system. Be familiar with management models, financial management, and departments in construction contracting companies. Apply acquired knowledge directly in all departments of the construction company.
Lecturer / Teaching assistant	Dr Miloš Knežević-professor
Methodology	Lectures, exercises, consultations, site visit.

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures	Introduction. Basic concepts from the theory of system and management of system.
I week exercises	Introduction. Basic concepts from the theory of system and management of system.
II week lectures	System engineering. Construction company like managerial business system and its surroundings.
II week exercises	System engineering. Construction company like managerial business system and its surroundings.
III week lectures	Definition and company division. Vision, mission and aims of the company.
III week exercises	Definition and company division. Vision, mission and aims of the company.
IV week lectures	Company foundation. Forms and proprietary structure (business company, capital association, public company, holding
IV week exercises	Company foundation. Forms and proprietary structure (business company, capital association, public company, holding
V week lectures	Connections of the building company with body of the state government and authorities and other institutions and organizations. Specialized firms or institutions (town planning, space planning, site …
V week exercises	Connections of the building company with body of the state government and authorities and other institutions and organizations. Specialized firms or institutions (town planning, space planning, site …
VI week lectures	FREE WEEK
VI week exercises	FREE WEEK
VII week lectures	I TEST
VII week exercises	I TEST
VIII week lectures	Functions of the construction company (production and preparation, marketing, business negotiations, research and development. Planning and control, finance, accounting, book-keeping, administrative and staff service, function of quality
VIII week exercises	Functions of the construction company (production and preparation, marketing, business negotiations, research and development. Planning and control, finance, accounting, book-keeping, administrative and staff service, function of quality
IX week lectures	Organs and organizational structure of construction company. Business units (building, sites, production plants, presentations).
IX week exercises	Organs and organizational structure of construction company. Business units (building, sites, production plants, presentations).
X week lectures	Finance management, indicators of business success (balance of state, balance of success), revision of accounting data.
X week exercises	Finance management, indicators of business success (balance of state, balance of success), revision of accounting data.
XI week lectures	Marketing in construction company.
XI week exercises	Marketing in construction company.
XII week lectures	SWOT analysis of the construction company.
XII week exercises	SWOT analysis of the construction company.
XIII week lectures	Benchmarking of construction company.
XIII week exercises	Benchmarking of construction company.
XIV week lectures	Re-engineering of business processes in construction company.
XIV week exercises	Re-engineering of business processes in construction company.
XV week lectures	II TEST
XV week exercises	II TEST

Student workload	Weekly 6 credits x 40/30 = 8 Total workload for the course 6.0x30 = 180 hours
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 3 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 1 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations	Attendance at lectures and exercises, completed seminar paper.
Consultations	Throughout the semester continuously
Literature	basic: Novaković, V., Menadžment u savremenom građevinarstvu, Izgradnja, Beograd, 2003. Đuranović, P., Upravljanje građevinskim projektima, Građevinski fakultet, Podgorica, 2006. Praščević, Ž. Osnovi sistemskog inženjerstva, Građevinski fakultet, Beograd, 2008. Dutina, V., Menadžment građevinskih preduzeća, FTN, Kosovska mitrovica, 2006. dopunska: Mašić, B., Strateški menadžment, Univerzitet «Braća Karić», Beograd, 2001. Đuranović. P., Organizacija građenja, Građevinski fakultet, Podgorica, 1995. Ćirović, G., Reinženjering poslovnih procesa, Građevinski fakultet, Beograd, 1999. Kovačević, D., Menadžment preduzeća, Energoprojekt,1998
Examination methods	- attendance at lectures : 20 points - 2 preliminary exams: 30 points - final exam : ≤ 50 points - sufficient mark is got if you collect 51 points.
Special remarks	Exercies are (V) performed for the groups up to 20 students. If it is necessary, teaching courses can be performed in English. Presented materials at the lectures will be realized in practice in exercises. Each student will defense seminar paper on manag
Comment	Further information can be got at the course teacher, manager of study program and at vice-dean of teaching courses..

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / CONSTRUCTION MANAGEMENT AND MACHINERY

Course:

CONSTRUCTION MANAGEMENT AND MACHINERY/

Course ID	Course status	Semester	ECTS credits	Lessons (Lessons+Exercises+Laboratory)
12042	Obavezan	3	5	2+1+1

Programs
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology

Plan and program of work
Preparing week	Preparation and registration of the semester
I week lectures
I week exercises
II week lectures
II week exercises
III week lectures
III week exercises
IV week lectures
IV week exercises
V week lectures
V week exercises
VI week lectures
VI week exercises
VII week lectures
VII week exercises
VIII week lectures
VIII week exercises
IX week lectures
IX week exercises
X week lectures
X week exercises
XI week lectures
XI week exercises
XII week lectures
XII week exercises
XIII week lectures
XIII week exercises
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises

Student workload
Per week	Per semester
5 credits x 40/30=6 hours and 40 minuts 2 sat(a) theoretical classes 1 sat(a) practical classes 1 excercises 2 hour(s) i 40 minuts of independent work, including consultations	Classes and final exam: 6 hour(s) i 40 minuts x 16 =106 hour(s) i 40 minuts Necessary preparation before the beginning of the semester (administration, registration, certification): 6 hour(s) i 40 minuts x 2 =13 hour(s) i 20 minuts Total workload for the subject: 5 x 30=150 hour(s) Additional work for exam preparation in the preparing exam period, including taking the remedial exam from 0 to 30 hours (remaining time from the first two items to the total load for the item) 30 hour(s) i 0 minuts Workload structure: 106 hour(s) i 40 minuts (cources), 13 hour(s) i 20 minuts (preparation), 30 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment

Grade:	F	E	D	C	B	A
Number of points	less than 50 points	greater than or equal to 50 points and less than 60 points	greater than or equal to 60 points and less than 70 points	greater than or equal to 70 points and less than 80 points	greater than or equal to 80 points and less than 90 points	greater than or equal to 90 points

Faculty of Civil Engineering / / ENGINEERING GEOLOGY

Faculty of Civil Engineering / / ENGINEERING GEODESY

Faculty of Civil Engineering / / PROJECT MANAGEMENT

Faculty of Civil Engineering / / ENGINEERING HYDROLOGY

Faculty of Civil Engineering / / HYDROLOGY

Faculty of Civil Engineering / / CONSTRUCTION MANAGEMENT

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR CIVIL ENG. STRUCTURES

Faculty of Civil Engineering / / FUNDAMENTALS OF URBAN PLANNING

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR HYDROENERGETIC STRUCT.

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR BUILDINGS

Faculty of Civil Engineering / / TECHNOLOGY OF STRUCTURES RECONSTRUCTION

Faculty of Civil Engineering / / BUSINESS PSYCHOLOGY

Faculty of Civil Engineering / / CONSTRUCTION CODES AND REGULATIONS

Faculty of Civil Engineering / / FUNDAMENTALS OF GEOLOGY AND GEODESY

Faculty of Civil Engineering / / INTRODUCTION TO CIVIL ENGINEERING PROJECTS

Faculty of Civil Engineering / / BUILDING MATERIALS AND PRODUCTS

Faculty of Civil Engineering / / CIVIL ENGINEERING STRUCTURES

Faculty of Civil Engineering / / PROJECT MANAGEMENT

Faculty of Civil Engineering / / CONSTRUCTION MANAGEMENT

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR CIVIL ENG. STRUCTURES.

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR HYDROENERGETIC STRUCT.

Faculty of Civil Engineering / / CONSTRUCTION TECHNOLOGY FOR BUILDINGS

Faculty of Civil Engineering / / TECHNOLOGY OF STRUCTURES RECONSTRUCTION

Faculty of Civil Engineering / / BUSINESS PSYCHOLOGY

Faculty of Civil Engineering / / CONSTRUCTION CODES AND REGULATIONS

Faculty of Civil Engineering / / INTERNATIONAL TENDER PROCEDURES

Faculty of Civil Engineering / / INTERNATIONAL TENDER PROCEDURES

Faculty of Civil Engineering / / VALUATION OF REAL ESTATE

Faculty of Civil Engineering / / VALUATION OF REAL ESTATE

Faculty of Civil Engineering / / MODELING IN PROJECT MANAGEMENT

Faculty of Civil Engineering / / MODELING IN PROJECT MANAGEMENT

Faculty of Civil Engineering / / MANAGEMENT OF CONSTRUCTION COMPANIES

Faculty of Civil Engineering / / MANAGEMENT OF CONSTRUCTION COMPANIES

Faculty of Civil Engineering / / CONSTRUCTION MANAGEMENT AND MACHINERY

Contact

University

Programs / Calls

Centri