Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / GEODESY

Course:GEODESY/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
175Obavezan142+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites No conditionality.
Aims Through this course, students get familiar with topographic maps as a basis on which to design different buildings.
Learning outcomes After passing this exam student will be able to: 1. Know methods of designing the earth's surface on projection plane. 2. Know methods and instruments for making topographic map. 3. Demand special conditions of content and accuracy of topographic map. 4. Know the method of use of topographic map in designing buildings. 5. Know methods of transferring project on field and making the project of marking. 6. Contract and control production of topographic map and transferring the project on field. 7. Understand the method of production and maintaining of the real estate cadastre as a unique property record of ownership.
Lecturer / Teaching assistantPh.D. Mitar Čvorović B.Sc., Geod. – Teacher, MSc Radovan Djurovic B.Sc., Geod. - Associate
MethodologyLectures, exercises, demonstrations for working with maps, topographic maps and instruments. Studying and doing homework. Consultations.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesHistorical development. The division of the research and practice. The task of the practical part. Geographic and rectangular coordinates, Gauss-Kruger projection.
I week exercisesGeodesy in construction. The main goals and tasks. The units for measuring angles.
II week lecturesThe division of projection plane into sheets R1: 5000; R1 2500 R1 1000 . National coordinate system.
II week exercises Rectangular coordinates and their application in the description of spatial forms. Scale and scalars. Division of projection plane.
III week lecturesOrientation of straight line in space and in the projection plane. Azimuth and directional angle. Oriented direction
III week exercisesThe directional angle. Calculating the Cartesian coordinates. Calculating oriented direction.
IV week lecturesBasic characteristics of the instruments for measuring angles.
IV week exercisesThe principle of measuring angles. Practical work with instruments
V week lecturesInstruments for measuring length. Calculating the coordinates of points from the oriented direction and length.
V week exercisesPractical work with instruments for measuring the length and automatic coordinate calculation.
VI week lecturesI COLLOQUIUM
VI week exercisesI COLLOQUIUM
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesLeveling. The division between geometric and trigonometric leveling. Leveler, instruments for measuring height differences. Principles of construction and method of use.
VIII week exercisesLeveling. The division between geometric and trigonometric leveling. Leveler, instruments for measuring height differences. Principles of construction and method of use.
IX week lecturesProcedure of recording land by Polar and GPS method.
IX week exercisesProcedure of recording land by Polar and GPS method.
X week lecturesMaking topographical maps - Ortho-photo plan. Topographic key Presentation of relief.
X week exercisesPractical work with topographic maps in digital form. Topographic signs
XI week lectures Project transfer to the field. Transferring to field of: urban parcels, designed building, construction and regulation line.
XI week exercisesCalculating elements for marking.
XII week lecturesThe real estate cadastre, creation and development. The records of real estate. Immovable property. Review of records according to personal data and the number of cadastral parcel
XII week exercisesInsight in the real estate, introduction to the website of the Real Estate, immovable property certificates.
XIII week lecturesII COLLOQUIUM
XIII week exercisesII COLLOQUIUM
XIV week lecturesOrganizing surveying work with the analysis of cost.
XIV week exercisesPractical examples of geodetic practices.
XV week lecturesPreparation for the final exam.
XV week exercisesPreparation for the final exam.
Student workloadWeekly 4 credits x 40/30 = 5 hours i 20 minutes. Total workload for the course 4x30 =120 hours
Per weekPer 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
Consultations
LiteratureM. Čvorović, Geodes in Civil Engineering I part, Unireks Nikšić 1992. Mihailović K. , Vračarić K., Geodesy 1, Naučna knjiga, Beograd 1988. Website of Civil Engineering http://www.gf.ucg.ac.me//predmet.php?id=88
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 5
Special remarksLectures are conducted for a group of up to 75 students and exercises for a group of 25 students
CommentAdditional information can be obtained at the present teaching staff, with Dean for Academic Affairs.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / STRENGTH OF MATERIALS

Course:STRENGTH OF MATERIALS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
178Obavezan252+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims The objective of the course is enabling students to analyze stress and deformation conditions occurring in structural element on whose basis they can perform the design of elements.
Learning outcomes Upon successful completion, the students will be able to: 1. Understand basic concepts the structural mechanics theory for deformable bodies; 2. Understand the concepts of stress and strain at a point as well as the stress-strain relationships for homogenous, isotropic materials; 3. Calculate the stresses and strains in axially-loaded members, circular torsion members and members subjected to flexural loadings; 4. Understand and apply basic concepts of structural design.
Lecturer / Teaching assistantOlga Mijušković - Associate Professor
MethodologyLectures, calculation exercises. Learning and individual work tasks. Consultations.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesGeneral principles. Geometric properties of plane areas (planar cross-sections). Centroid. Definition of moments of inertia. Moments of inertia of composite areas.
I week exercisesExample: Centroid, Moment of inertia and product of inertia of composite areas.
II week lecturesPrincipal moments of inertia, principal axes. Mohr’s circle. Introduction to stress analysis.
II week exercises Example: Principal moments of inertia, principal axes.
III week lecturesStress analysis. Stress tensor. Main stresses. Extreme values of tangential stresses.
III week exercisesExample: Plane stress analysis.
IV week lecturesDeformation analysis. Deformation tensor. Stress-strain diagrams. Hook’s law. Mechanical properties of materials. Constitutive equations.
IV week exercisesExample: Plane strain analysis.
V week lecturesConstitutive equations for isotropic elastic materials.
V week exercisesExample: Constitutive equations for isotropic elastic materials.
VI week lecturesIntroduction to beam theory. Stress and Strain - Axial Loading. Design of axially loaded members.
VI week exercisesExample: Stress and Strain - Axial Loading.
VII week lecturesFree week
VII week exercisesFree week
VIII week lecturesPure shear. Types of bending. Neutral surface. Neutral axes. Case of symmetric bending.
VIII week exercisesExample: Symmetric bending of beams. FIRST TEST
IX week lecturesBeams under unsymmetrical bending.
IX week exercisesExample: Unsymmetrical bending of beams.
X week lecturesAxially loaded members subjected to eccentric pressure and tension.
X week exercisesExample: Eccentric loads.
XI week lecturesTorsion. Definition of torsion. Torsional shearing stress and strain. Deformation.
XI week exercisesExample: Torsion.
XII week lecturesGeneral case of transversally loaded beams. Shearing stress in bending and distribution of shearing stresses in the cases of different cross sections.
XII week exercisesExample: Shearing stresses in the cases of circular and rectangular cross sections
XIII week lecturesPrincipal stresses in bending. Deflection of transversally loaded beams.
XIII week exercisesExample: Shearing stresses in I beams.
XIV week lecturesBeams under combined load.
XIV week exercisesExample: Beams under combined load.
XV week lecturesEuler’s method for stability analysis. Definition of critical load of a column. Slenderness ratio of the column.
XV week exercisesExample: Column buckling
Student workloadWeekly 5.0 credits x 40/30 = 6 hours and 40 min. Total course hours : 5.0 x 30 = 160 hours
Per weekPer 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
LiteratureLiterature: Građevinska mehanika 2 – Otpornost materijala - R. Pejović Otpornost materijalala – V. Lubarda
Examination methodsForms of Assessment: - Regular attendance - max 4 points - Homework – 4 x 1.5 = max 6 points - Tests - 2 x 45 (min 20) - Final exam - <50 points Important notes: -Attendance (lectures and tutorials): min 60 % -Passing grade is obtained wit
Special remarks
CommentAdditional information can be obtained from the subject teacher, head of the study program and Vice dean for Education.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONSTRUCTION MATERIALS

Course:CONSTRUCTION MATERIALS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
179Obavezan263+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer 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:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / ELEMENTS OF BUILDINGS

Course:ELEMENTS OF BUILDINGS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
180Obavezan252+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistantDoc. dr Željka Radovanović - nastavnik, Mr Željka Beljkaš- saradnik
Methodology
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction: term about the building, structural system, perform of project, methods of statements for building, modular coordination.
I week exercisesTechnical drawing: scale, dimensioning, principles of technical drawing, drawing section. Task - display the body in three projections.
II week lecturesFoundations: basic types and properties of the soil, division of the foundation. Waterproofing: Isolation of ground moisture and ground water.
II week exercises Disposition plane of smaller residential building. Explanation of the task. Basic instructions for making The review of previous exercises.
III week lecturesMassive structural system: classification of walls, masonry walls, reinforcement of walls, technology of construction. Masonry of brick walls: types of brick products, mortar for masonry, rules for the brick stacking. Chimneys and ventilation channels.
III week exercisesFoundation of building: base of the foundation, characteristic details-foundations with display details of waterproofing.
IV week lecturesFrame and mixed structural systems: base structural elements and transfer of forces through the structures, technology of construction. Partitions walls: external partitions walls and internal partitions walls, thermal properties of walls.
IV week exercisesBase of the building and characteristics of cross section. Draw base plane of the building and cross sections and make positioning of the structural elements on them.
V week lecturesHorizontal structural elements of the building: horizontal confined, beams and underscores of the ceiling (base types of the ceiling).
V week exercisesCeiling: On the base plane of building it is need to present the supporting of ceiling and characteristic details.
VI week lecturesFloors and ceilings construction aspects of sound insulation Openings – doors and windows
VI week exercisesDoors and windows: display in the layout, base plane and cross section.
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesFirst test
VIII week exercisesVisit the site at which the ongoing rough construction works
IX week lecturesVertical communication in the building - staircases, ramps and lifts. Elements of staircases. The forms of staircases. Calculation of stairs dimensions. Drawings of stairs.
IX week exercisesReview of task.
X week lecturesVertical communication in the building - structures for support of staircase. RC staircases, wood staircase and movable staircases.
X week exercisesStaircase: Drawing of the staircase in the base plane and in the characteristic cross section. Detail of tread.
XI week lecturesFlat roofs: method of drainage, composition of the structure, edgings and penetrations.
XI week exercisesFlat roofs: Drawing of flat roof in the base plane and in the characteristic cross-sections. Details.
XII week lecturesSloping roofs - roof structures: roofs resting on roof beams and roofs with corneal.
XII week exercisesReview of task.
XIII week lecturesSloping roofs - roof structures: roof suspension, trusses roof beams. Covering of the roofs: roofs covers, drainage of roofs, water shoot.
XIII week exercisesSloping roofs: Drawing of the staircase in the base plane and in the characteristic cross section. Details.
XIV week lecturesFinishing works on the buildings: tinsmithing works, cabinetwork, glazier works and locksmithing.
XIV week exercisesFinal assessment and elaboration of study - final delivery term.
XV week lecturesSecond test
XV week exercisesVisit the site at which the ongoing final works.
Student workload
Per weekPer 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
LiteratureLiteratura: Prof. dr Božidar Đ. Milić: “Elementi i konstrukcije zgrada”, UCG Građevinski fakultet, Podgorica, 1999. Biljana Blagojević: “Građevinske konstrukcije“, Zavod za udžbenike i nastavna sredstva Beograd, 2000. Ranko Trbojević: “Arhitektonsk
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / TIMBER STRUCTURES

Course:TIMBER STRUCTURES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
197Obavezan432+.5+.5
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
3 credits x 40/30=4 hours and 0 minuts
2 sat(a) theoretical classes
0 sat(a) practical classes
0 excercises
1 hour(s) i 0 minuts
of independent work, including consultations 		Classes and final exam:
4 hour(s) i 0 minuts x 16 =64 hour(s) i 0 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
4 hour(s) i 0 minuts x 2 =8 hour(s) i 0 minuts
Total workload for the subject:
3 x 30=90 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)
18 hour(s) i 0 minuts
Workload structure: 64 hour(s) i 0 minuts (cources), 8 hour(s) i 0 minuts (preparation), 18 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / GEOLOGY

Course:GEOLOGY/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
200Obavezan252+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites None.
Aims This Subject enables acqusition of basic information in fields of geology and hydrogeology
Learning outcomes After having passed the exam, students will be able to: 1. Describe and distinguish igneous, sedimentary and metamorphic rocks; 2. Assess physical-mechanical and structural properties of rocks for purposes of geotechnical foundation; 3. Use geological, hydrogeological and engineering-geological maps which represent the basis for the civil engineering design of structures.
Lecturer / Teaching assistantDr Mićko Radulović - lecturer
Dr Milan Radulović - assistant
MethodologyLectures, exercises, consultations, homeworks, etc.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction. Origin and structure of the Earth. Global tectonics of plates.
I week exercises Graphic layout of the Earth structure and crust. Homework.
II week lecturesFoundations of mineralogy. Sistematics of minerals.
II week exercises Macroscopic examination of minerals. Homework.
III week lecturesRocks of Earth crust: magma and igneous rocks.
III week exercisesMacroscopic examination of minerals and magmas. Homework.
IV week lecturesSedimentary rocks.
IV week exercisesMacroscopic examination of minerals and rocks
V week lecturesMetamorphic rocks
V week exercisesMacroscopic examination of rocks.
VI week lecturesGeological chronology. Tectonics. Folds, faults, overthrust nappes. Dip and strike.
VI week exercisesMacroscopic examination of rocks
VII week lecturesI TEST, I COLLOQUIUM
VII week exercisesI TEST, I COLLOQUIUM
VIII week lecturesGeological, engineering-geological (EG) and hydrogeological (HG) maps.
VIII week exercisesInterpretation of geological maps. Measurement of fall elements by a compass.
IX week lecturesRock mass properties. Field investigation methods for construction of structures.
IX week exercisesGeological and EG maps. Preparation of design for EG investigations.
X week lecturesFoundations of hydrogeology. Groundwater.
X week exercisesHydrogeological maps, revision.
XI week lecturesHydrogeological functions of rock masses. Aquifiers.
XI week exercisesTypes of aquifier. Elements of intergranular aquifier- scheme.
XII week lecturesWatersheds. Hydrogeological phenomena. Groundwater flow.
XII week exercisesType of water-intake structures. Determination of HG parameters (Kf, T)
XIII week lecturesMethodics of HG investigations. Foundations of geodynamics.
XIII week exercisesPreparation of design for HG investigations. Revision.
XIV week lecturesRepetition of lessons.
XIV week exercisesRepetition of lessons.
XV week lecturesII TEST, II COLLOQUIUM
XV week exercisesII TEST, II COLLOQUIUM
Student workloadWeekly
3.5 credits x 40/30 = 4 hours 40 min
Total workload for the Subject 3.5x30 = 105 hours
Per weekPer 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, preparation of graphical papers, taking the tests.
ConsultationsMonaday 11.00-13.00
Literature
Radulovic Micko (2003) Foundations of Geology. University of Montenegro, Faculty of Civil Engineering in Podgorica
Examination methods
- Attendance to lectures and exercises from 2.4 to 3.0 credits;
- Tests and homeworks from 2.8 to 8.0 credits;
- Colloquiums per 20 to 40 credits;
- Final exam ≤ 49 credits;
- Pass requires minimum
Special remarksLectures are intended for a group of 90 students, and exercises for a group of 30 students.
CommentFurther information about the Subject can be required from the lecturer, assistant, head of the study program and vice dean of academic affairs.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / BRIDGES

Course:BRIDGES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
201Obavezan443+1+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
4 credits x 40/30=5 hours and 20 minuts
3 sat(a) theoretical classes
0 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
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONCRETE STRUCTURES

Course:CONCRETE STRUCTURES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
208Obavezan342+.5+.5
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims Getting to know the material from the field of application, design and construction of concrete and reinforced concrete structures.
Learning outcomes After passing this exam, the student will be able to: 1. Explain the basic rules and assumptions for the calculation of reinforced concrete structures; 2. Recognize and calculate the values ​​of actions on AB construction; 3. Solve a simple calculation model of AB construction elements; 4. Check the bearing capacity of AB construction element (beams, slabs and columns) according to the limit state method; 5. Sketches the details of the reinforcement of the AB construction elements; 6. Uses simple building construction projects in professional work.
Lecturer / Teaching assistantDoc. dr Nina Serdar
Methodology
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesConstruction materials for structure. View of basic feature of construction materials. Advantages and disadvantages. Basic concepts of concrete and reinforced concrete.
I week exercisesTasks in the subject area.
II week lecturesActions on the structures. Definition of: actions, loads, forces, strain. Classification of actions. Loads on the building. Calculation of static forces.
II week exercises Tasks in the subject area.
III week lecturesThe concept of security. Constitutive relationships. Stress-strain area. Calculation of RC section on the limit effects from moments and axial forces.
III week exercisesTasks in the subject area.
IV week lecturesCalculation of RC section on the accordance to limit states - single and a double reinforcement.
IV week exercisesTasks in the subject area.
V week lecturesCalculation of RC section on the accordance to limit states - "T" cross section.
V week exercisesTasks in the subject area.
VI week lecturesCalculation of RC cross section accordance to main tensil stress for limit effects by transfersal forces and moments.
VI week exercisesTasks in the subject area.
VII week lecturesPractical work on assignments
VII week exercisesPractical work on assignments
VIII week lecturesRules of reinforcement.
VIII week exercisesI COLLOQUIUM
IX week lecturesConstruction and calculation of RC flat surface elements - RC slab.
IX week exercisesTasks in the subject area.
X week lecturesConstruction and calculation of other ceiling structures and stairs.
X week exercisesTasks in the subject area.
XI week lecturesConstruction and calculation of columns and walls.
XI week exercisesTasks in the subject area.
XII week lecturesCalculation of Proračun slender RC elements.
XII week exercisesTasks in the subject area.
XIII week lecturesDesign and calculation AB of frame structures.
XIII week exercisesTasks in the subject area.
XIV week lecturesCalculation of RC section and elements accoding to serviceability limit states. Deformation of concrete depending of time. Limit states of crakes.
XIV week exercisesTasks in the subject area.
XV week lecturesAssessment of knowledge and understanding shown during the defense of Study. II COLLOQUIUM
XV week exercisesSubmission of Study.
Student workload
Per weekPer semester
4 credits x 40/30=5 hours and 20 minuts
2 sat(a) theoretical classes
0 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
Consultations
LiteratureGrupa autora: BETON I ARMIRANI BETON PREMA BAB 87, knjiga 1 i 2, Građevinska knjiga Beograd, 1991. Đuranović N.: "IZVOD IZ PREDAVANJA NA PREDMETU BETONSKE KONSTRUKCIJE - MANADŽMENT", januar 2009. godine. Radosavljević, Ž., Bajić, D.: ARMIRANI BETON, knj
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / METAL STRUCTURES

Course:METAL STRUCTURES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
211Obavezan332+.5+.5
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
3 credits x 40/30=4 hours and 0 minuts
2 sat(a) theoretical classes
0 sat(a) practical classes
0 excercises
1 hour(s) i 0 minuts
of independent work, including consultations 		Classes and final exam:
4 hour(s) i 0 minuts x 16 =64 hour(s) i 0 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
4 hour(s) i 0 minuts x 2 =8 hour(s) i 0 minuts
Total workload for the subject:
3 x 30=90 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)
18 hour(s) i 0 minuts
Workload structure: 64 hour(s) i 0 minuts (cources), 8 hour(s) i 0 minuts (preparation), 18 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / MUNICIPAL HYDROTECHNICS

Course:MUNICIPAL HYDROTECHNICS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
217Obavezan432+.5+.5
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites No prerequisites.
Aims Gaining basic knowledge in design and construction of hydro-technical aspects.
Learning outcomes
Lecturer / Teaching assistantDr Goran Sekulić - nastavnik Ivana Ćipranić - saradnici
MethodologyLectures, exerc., Consultations, homework, etc..
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesThe work plan
I week exercisesThe work plan
II week lecturesWater supply of settlements and industry. Historical development.
II week exercises Water supply of settlements and industry. Historical development.
III week lecturesThe components of water supply systems and their role in the system in different conditions, classification of the water supply. Planning principles: period needs in water, variations in consumption, the required water quality. Sources of supply in the na
III week exercisesThe components of water supply systems and their role in the system in different conditions, classification of the water supply. Planning principles: period needs in water, variations in consumption, the required water quality. Sources of supply in the na
IV week lecturesBuildings for the procedure underground water, surface and atmospheric water..
IV week exercisesBuildings for the procedure underground water, surface and atmospheric water..
V week lecturesPumping installations. Tanks.
V week exercisesPumping installations. Tanks.
VI week lecturesSupply pipelines and distribution networks. Hydraulic design, mathematical models. Pipes, fittings and valves. Plumbing in buildings..
VI week exercisesSupply pipelines and distribution networks. Hydraulic design, mathematical models. Pipes, fittings and valves. Plumbing in buildings..
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesCOLLOQUIUM I
VIII week exercisesCOLLOQUIUM I
IX week lecturesSewerage systems of settlements and industries. Introduction - purpose and historical development. Types of waste water. Sewer systems: parts of layout solutions. The quantities of waste water.
IX week exercisesSewerage systems of settlements and industries. Introduction - purpose and historical development. Types of waste water. Sewer systems: parts of layout solutions. The quantities of waste water.
X week lecturesThe qualitative characteristics of waste water. Mass flow, PE. Terms of discharging wastewater into public sewers and receivers.
X week exercisesThe qualitative characteristics of waste water. Mass flow, PE. Terms of discharging wastewater into public sewers and receivers.
XI week lecturesSewage in buildings, stormwater system.
XI week exercisesSewage in buildings, stormwater system.
XII week lecturesThe sewerage network: the location and depth of the channel, the channel falls, flow rate, types of channel profiles, hydraulic calculations, mathematical modeling of the sewerage network.
XII week exercisesThe sewerage network: the location and depth of the channel, the channel falls, flow rate, types of channel profiles, hydraulic calculations, mathematical modeling of the sewerage network.
XIII week lecturesTypes of sewer pipes and construction. Special facilities and equipment in the sewer. Maintenance and cleaning
XIII week exercisesTypes of sewer pipes and construction. Special facilities and equipment in the sewer. Maintenance and cleaning
XIV week lecturesMethods of treatment of wastewater (physical-chemical, chemical, biological). Methods of wastewater treatment (primary, secondary and tertiary treatment).
XIV week exercisesMethods of treatment of wastewater (physical-chemical, chemical, biological). Methods of wastewater treatment (primary, secondary and tertiary treatment).
XV week lecturesCOLLOQUIUM II
XV week exercisesCOLLOQUIUM II
Student workloadSunday: 3.0 credits x 40/30 = 4 hours. Total work hours for course: 3.0x30 = 90 hours
Per weekPer semester
3 credits x 40/30=4 hours and 0 minuts
2 sat(a) theoretical classes
0 sat(a) practical classes
0 excercises
1 hour(s) i 0 minuts
of independent work, including consultations 		Classes and final exam:
4 hour(s) i 0 minuts x 16 =64 hour(s) i 0 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
4 hour(s) i 0 minuts x 2 =8 hour(s) i 0 minuts
Total workload for the subject:
3 x 30=90 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)
18 hour(s) i 0 minuts
Workload structure: 64 hour(s) i 0 minuts (cources), 8 hour(s) i 0 minuts (preparation), 18 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
LiteratureGoran Sekulić, Ivana Ćipranić, Komunalna Hidrotehnika, Građevinski fakultet Podgorica, 2015, Podgorica , Ćorović Aleksandar, Snabdijevanje vodom, Građevinski fakultet Sarajevo, 1989. Miloje Milojević, Snabdevanje vodom i kanalisanje naselja, Građevinski f
Examination methods- Attending lectures and exercises (max 3 points) - tests and graphic works (max 8 points) - 2 tests (max 20 points per Colloquium) - Final exam 50 points - passing grade is obtained If needed at least 51 points
Special remarksExercises are performed in groups of 20 students.
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / STREETS

Course:STREETS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
227Obavezan342+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer 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
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / DESCRIPTIVE GEOMETRY

Course:DESCRIPTIVE GEOMETRY/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
1034Obavezan152+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites no conditionality
Aims To acquire basic knowledge of the methods of 3D objects representation on 2D
Learning outcomes
Lecturer / Teaching assistantDr Marija Jevrić
MethodologyLectures, exercises, consultations
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction: trihedron, Monge’s projections; point and line in orthogonal projections piercing points of lines
I week exercisesIntroduction: trihedron, Monge’s projections; point and line in orthogonal projections piercing points of lines
II week lecturesPlane; point and line in relation to plane; lines in special postitions, trihedron of plane slope; Intersections of planes; intersection of planes and lines.
II week exercises Plane; point and line in relation to plane; lines in special postitions, trihedron of plane slope; Intersections of planes; intersection of planes and lines.
III week lecturesTransformation, rotation, true length and size of lines and planes.
III week exercisesTransformation, rotation, true length and size of lines and planes.
IV week lecturesAxonometry: point, line, plane, solids
IV week exercisesAxonometry: point, line, plane, solids
V week lecturesColineation, affinity; regular polyhedra, plane intersections of geometric solids
V week exercisesColineation, affinity; regular polyhedra, plane intersections of geometric solids
VI week lecturesRoofs; types and methods. True size of roof plane.
VI week exercisesRoofs; types and methods. True size of roof plane.
VII week lecturesHelix and helikoidal surfaces; straightline-generated surface
VII week exercisesHelix and helikoidal surfaces; straightline-generated surface
VIII week lecturesIntersection of prism and pyramids.
VIII week exercisesIntersection of prism and pyramids.
IX week lecturesIntersection of cones and cylinders.
IX week exercisesIntersection of cones and cylinders.
X week lecturesTopographic representation: scale, interval and slope of lines and planes; intersection of planes; plane of given slope
X week exercisesTopographic representation: scale, interval and slope of lines and planes; intersection of planes; plane of given slope
XI week lecturesTopographic projection of terrein; planning of horizontal surface on terrein
XI week exercisesTopographic projection of terrein; planning of horizontal surface on terrein
XII week lecturesDetermination of cuts and fills - method of contour lines
XII week exercisesDetermination of cuts and fills - method of contour lines
XIII week lecturesDetermination of cuts and fills - method of cross profiles
XIII week exercisesDetermination of cuts and fills - method of cross profiles
XIV week lectures
XIV week exercises
XV week lectures
XV week exercises
Student workloadWeekly 5.0 credits x 40/30 = 6sati 40minuta Total workload to the course: 5.0 x 30 = 150 hours
Per weekPer 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 Literature: Gagić Lj.:Nacrtna geometrija, Naučna knjiga, Beograd 1992. god; Živanović, Čučaković:Zbirka zadataka iz nacrtne geometrije, Naučna knjiga
Examination methods The forms of knowledge testing and grading: Assessment is carried out continuously throughout the semester and the final exam. If the student shows minimal sufficient level of knowledge during the semester can earn 51 points. Maximum student during the
Special remarksThe Lectures is organized for a group of up to 100 students, exercises for a group up to 40 students, laboratory up to 10 students
CommentAdditional information can be obtained at the present teaching staff, Head of the study program with Vice Dean for Academic Affairs.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONSTRUCTION MANAGEMENT AND MACHINERY

Course:CONSTRUCTION MANAGEMENT AND MACHINERY/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
1039Obavezan453+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims Learning about estimation of costs, choice of constructional plant, and usage of organizational methods for analysis and improvement of building in different conditions
Learning outcomes
Lecturer / Teaching assistantDr Snežana Rutešič - professor Mr Željka Beljkaš – assistant
MethodologyLectures, exercises, seminar paper
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesHistorical development of scientific organization of work; general principles, production factors ; preparation of production: study
I week exercisesHistorical development of scientific organization of work; general principles, production factors ; preparation of production: study
II week lecturesConstructional plant – division, results and statement of account. Wider and closer choice of constructional plant, principles of usage, estimation costs of the working hour. Constructional plant for earth works: excavation
II week exercises Constructional plant – division, results and statement of account. Wider and closer choice of constructional plant, principles of usage, estimation costs of the working hour. Constructional plant for earth works: excavation
III week lecturesMachines for soil compaction (rollers, slabs and so on) Constructional plant for transport and materials lift (tower lift, cable cranes, auto-lifts, cableways, derricks and so on).
III week exercisesMachines for soil compaction (rollers, slabs and so on) Constructional plant for transport and materials lift (tower lift, cable cranes, auto-lifts, cableways, derricks and so on).
IV week lecturesConstructional plant and equipment for making concrete aggregate (crushers, mills, strainers ..) and execution of concrete works
IV week exercisesConstructional plant and equipment for making concrete aggregate (crushers, mills, strainers ..) and execution of concrete works
V week lecturesConstructional plant for transport and draw (vehicle for out of public roads, vehicle of site transport, road and special vehicle, cableways, transport bands, vehicle on railway). Constructional plant for wok in stone (compressors, guns and , wagon drill
V week exercisesConstructional plant for transport and draw (vehicle for out of public roads, vehicle of site transport, road and special vehicle, cableways, transport bands, vehicle on railway). Constructional plant for wok in stone (compressors, guns and , wagon drill
VI week lecturesMeasurement and standardization of work in civil engineering, paying of work and system of rewarding; costs and cost analysis ,
VI week exercisesMeasurement and standardization of work in civil engineering, paying of work and system of rewarding; costs and cost analysis ,
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesI PRELIMINARY EXAM KVIJUM
VIII week exercisesI PRELIMINARY EXAM KVIJUM
IX week lecturesRationalization and economy of production. Production plant: organization of central trade plants; plants for stone production. Plant for rework of stone and gravels
IX week exercisesRationalization and economy of production. Production plant: organization of central trade plants; plants for stone production. Plant for rework of stone and gravels
X week lecturesProduction plants : reinforced plant, carpentry plants, plant for concrete production
X week exercisesProduction plants : reinforced plant, carpentry plants, plant for concrete production
XI week lecturesPreparatory works, scheme of building organization. Overheads and factor for gross salaries.
XI week exercisesPreparatory works, scheme of building organization. Overheads and factor for gross salaries.
XII week lecturesIndustrialization and prefabrication of concrete elements. Chain production and changes in plants and on the site . Plant for production of assembly elements. Organization of assembly works.
XII week exercisesIndustrialization and prefabrication of concrete elements. Chain production and changes in plants and on the site . Plant for production of assembly elements. Organization of assembly works.
XIII week lecturesMeasurement of winter concreting
XIII week exercisesMeasurement of winter concreting
XIV week lecturesII PRELIMINARY EXAM delivery and defense of seminar paper
XIV week exercisesII PRELIMINARY EXAM delivery and defense of seminar paper
XV week lecturesMAKE-UP EXAM delivery and defense of seminar paper
XV week exercisesMAKE-UP EXAM delivery and defense of seminar paper
Student workloadWeekly 5.0 credits x 40/30 = 6 hours 40 min Total workload for the course 5.0x30 = 150 hours
Per weekPer 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 methodsIt is given minimal and maximal number of points which student is able to get in the scope of elements which are rated, where student must get in any case the prescribed minimal number of points: - Attendance at lectures and exercises (obligatory 70 % at
Special remarksExercises are performed in groups which are announced by Students’ office. The preliminary exam includes tasks and test with theoretical questions. In the scope of both segments of preliminary exams the student must get minimum 50% predicted points.
CommentFurther information can be got at the course teacher, assistants, manager of the study program and vice-dean for teaching courses.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / PROJECT MANAGEMENT

Course:PROJECT MANAGEMENT/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
1478Obavezan442+1+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
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 assistantDr Miloš Knežević - professor Mr Mladen Gogic
MethodologyLectures, consultations
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction; 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 exercisesIntroduction; 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 lecturesProject 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 lecturesProject conceiving. Previous feasibility study.
III week exercisesProject conceiving. Previous feasibility study.
IV week lecturesFeasibility study. Revision. Decision of acceptance of study. Obtaining of financial funds.
IV week exercisesFeasibility study. Revision. Decision of acceptance of study. Obtaining of financial funds.
V week lecturesProject definition (making of technical documents): conditions and bases and contents .
V week exercisesProject definition (making of technical documents): conditions and bases and contents .
VI week lecturesTypes 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 exercisesTypes 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 lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesFIRST TEST
VIII week exercisesFIRST TEST
IX week lecturesManagement 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 exercisesManagement 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 lecturesDocuments 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 exercisesDocuments 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 lecturesWay 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 exercisesWay 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 lecturesDocuments on the structure: keep a record of techn.doc., official reports, commissions’ minutes, reports on work and results, requests’ of constructors, correspondence
XII week exercisesDocuments on the structure: keep a record of techn.doc., official reports, commissions’ minutes, reports on work and results, requests’ of constructors, correspondence
XIII week lecturesTechnical review: preparation, procedure, usage license, statement of account and takeover of structure; Guarantee deadline. Management of the test production.
XIII week exercisesTechnical review: preparation, procedure, usage license, statement of account and takeover of structure; Guarantee deadline. Management of the test production.
XIV week lecturesOrganization of projects management; models of management and direction by Investors and Constructors
XIV week exercisesOrganization of projects management; models of management and direction by Investors and Constructors
XV week lecturesSECOND TEST
XV week exercisesSECOND TEST
Student workloadWeekly 4.0 credits x 40/30 = 5 hours 20min Total workload for the course 4.0x30 = 120 hours
Per weekPer 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 To regularly attend lectures and exercises, take tests
ConsultationsThroughout the semester continuously
Literature1. 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
CommentFurther information can be got at the subject teacher, manager of the study program, and at the vice-dean for teaching courses
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / MATHEMATICS

Course:MATHEMATICS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
1657Obavezan173+3+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
7 credits x 40/30=9 hours and 20 minuts
3 sat(a) theoretical classes
0 sat(a) practical classes
3 excercises
3 hour(s) i 20 minuts
of independent work, including consultations 		Classes and final exam:
9 hour(s) i 20 minuts x 16 =149 hour(s) i 20 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
9 hour(s) i 20 minuts x 2 =18 hour(s) i 40 minuts
Total workload for the subject:
7 x 30=210 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)
42 hour(s) i 0 minuts
Workload structure: 149 hour(s) i 20 minuts (cources), 18 hour(s) i 40 minuts (preparation), 42 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / MASONRY STRUCTURES

Course:MASONRY STRUCTURES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
2450Obavezan442+.5+.5
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistantDoc. dr Željka Radovanović - nastavnik, Mr Jelena Pejović - saradnik
Methodology
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesPreparation and enrolment of semester. Introduced. Short history of masonry structures construction. Base material: masonry units and mortar. The classification of masonry structures.
I week exercisesPreliminary design of the building with masonry structures. Explanation of task. Basic instructions for making.
II week lecturesBehaviour of masonry under the load. Mechanism of breaking. The base of masonry structures design. Behaviour of masonry buildings under the earthquake action. Example of damages.
II week exercises Preliminary design of the building with masonry structures. Dispositional solving of structure from masonry building.
III week lecturesThe principles of seismic design of masonry buildings. Selection of the basis. The choice of geometry by height. Arrangement per height. Favourable and unfavourable dispositional solving. The disposition of the walls in the base. Rules for design.
III week exercisesPreliminary design of the building with masonry structures. Dispositional solving of structure. Review and assistance in the preparation of the project.
IV week lecturesMasonry works. Choice of base materials for masonry. Masonry works with bricks and brick blocks. Masonry of partition walls.
IV week exercisesSyllable of one wall of residential masonry building. The recipes of mortar for a given class of mortar. Quantity of needed material for one selected wall of the object.
V week lecturesPlastering interior and exterior, facade treatment. Masonry works with stone.
V week exercisesDetailed technical description of the default type of masonry work.
VI week lecturesAction on the structures. Term: action, loads, forces, deformations. Classification of the actions. Loads on the buildings. Combination of the loads.
VI week exercisesPreliminary design of the residential masonry building. Analyses of structures elements.
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesCalculation of cross section. Base of calculation. Working diagram. Technical regulation and standards.
VIII week exercisesFirst test
IX week lecturesCalculation of masonry structures. Calculation of forces in the structures. Vertical loads. Horizontal loads. Calculation models.
IX week exercisesCalculation of forces in the structures.
X week lecturesMechanical and deformation characteristic of unreinforced walls. Modulus of elasticity, volume strain - shrinkage, creep and thermal expansion. Behaviour under the compression.
X week exercisesCheck the load under the compression.
XI week lecturesStrength of the wall: bending and shear. Calculation of cross section. Behaviour of the wall on the bending and shear.
XI week exercisesCheck the load on the shear. Review and assistance in the preparation of the study.
XII week lecturesThe dimensioning walls with vertical and horizontal confined.
XII week exercisesCheck the load on the bending. Review and assistance in the preparation of the study.
XIII week lecturesBuilding isolation. Isolation of moisture. Thermal insulation. Soundproofing.
XIII week exercisesReview and assistance in the preparation of the study.
XIV week lecturesRehabilitation and strengthening of masonry structures which were damaged by earthquake. Classification of damages. Base principles of rehabilitation and strengthening.
XIV week exercisesPreliminary design of residential masonry building. Final acceptance and evaluation of the project - final term for submission.
XV week lecturesEvaluation of knowledge and understanding shown during the defence studies.
XV week exercisesSecond test
Student workload
Per weekPer semester
4 credits x 40/30=5 hours and 20 minuts
2 sat(a) theoretical classes
0 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
Consultations
LiteratureMihailo Muravljov, Boško Stevanović: ZIDANE I DRVENE KONSTRUKCIJE, Građevinski fakultet Univerziteta u Beogradu, 1999; Grupa autora: ZEMLJOTRESNO INŽENJERSTVO, Građevinska knjiga, Beograd, 1990; Pravilnik o tehničkim normativima za zidane zidove, 1991;
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / ECONOMICS IN CONSTRUCTION

Course:ECONOMICS IN CONSTRUCTION/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
4152Obavezan643+0+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
4 credits x 40/30=5 hours and 20 minuts
3 sat(a) theoretical classes
0 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
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONSTRUCTION TECHNOLOGY FOR BUILDINGS

Course:CONSTRUCTION TECHNOLOGY FOR BUILDINGS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
4153Obavezan563+2+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer 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:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONSTRUCTION TECHNOLOGY FOR CIVIL ENGINEERING

Course:CONSTRUCTION TECHNOLOGY FOR CIVIL ENGINEERING/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
4154Obavezan573+3+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims Students should learn basic categories and concepts from technologies of civil engineering
Learning outcomes
Lecturer / Teaching assistantDr Miloš Knežević - professor Mr Mladen Gogić - assistant
MethodologyLectures, seminar paper, preliminary exam.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesGenerally on technologies of civil engineering construction, preparatory and earth works (geodetic works, site clean-up, soil categorization, site organization).
I week exercisesGenerally on technologies of civil engineering construction, preparatory and earth works (geodetic works, site clean-up, soil categorization, site organization).
II week lecturesExecution of earth works, constructional plant for excavation, and loading.
II week exercises Execution of earth works, constructional plant for excavation, and loading.
III week lecturesConstructional plant for compaction.
III week exercisesConstructional plant for compaction.
IV week lecturesMaking of cuts and embankments.
IV week exercisesMaking of cuts and embankments.
V week lecturesDeformation, repair and insurance of road base.
V week exercisesDeformation, repair and insurance of road base.
VI week lecturesSlopes protection and stabilization of landslide.
VI week exercisesSlopes protection and stabilization of landslide.
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesNoise protection. PRELIMINARY EXAM
VIII week exercisesNoise protection. PRELIMINARY EXAM
IX week lecturesTraffic equipment and traffic safety.
IX week exercisesTraffic equipment and traffic safety.
X week lecturesAsphalt works. PREPARATORY EXAM
X week exercisesAsphalt works. PREPARATORY EXAM
XI week lecturesProcedures of cool recycling in rehabilitation of asphalt road structures.
XI week exercisesProcedures of cool recycling in rehabilitation of asphalt road structures.
XII week lecturesProcedures of warm recycling in recycling of asphalt road structures.
XII week exercisesProcedures of warm recycling in recycling of asphalt road structures.
XIII week lecturesProcedures of warm recycling in recycling of asphalt road structures.
XIII week exercisesProcedures of warm recycling in recycling of asphalt road structures.
XIV week lecturesApplication of geo-synthetic materials in civil engineering construction.
XIV week exercisesApplication of geo-synthetic materials in civil engineering construction.
XV week lecturesTechnology of construction and reconstruction of railways
XV week exercisesTechnology of construction and reconstruction of railways
Student workloadWeekly 7.0 credits x 40/30 = 9 hours 20 min. Total workload for the course 7.0x30 = 210 hours
Per weekPer semester
7 credits x 40/30=9 hours and 20 minuts
3 sat(a) theoretical classes
0 sat(a) practical classes
3 excercises
3 hour(s) i 20 minuts
of independent work, including consultations 		Classes and final exam:
9 hour(s) i 20 minuts x 16 =149 hour(s) i 20 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
9 hour(s) i 20 minuts x 2 =18 hour(s) i 40 minuts
Total workload for the subject:
7 x 30=210 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)
42 hour(s) i 0 minuts
Workload structure: 149 hour(s) i 20 minuts (cources), 18 hour(s) i 40 minuts (preparation), 42 hour(s) i 0 minuts (additional work)
Student obligations
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
CommentFurther information can be got at the course teacher, assistant, manager of the study program, and at the vice-dean for teaching courses.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONSTRUCTION CODES

Course:CONSTRUCTION CODES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
5351Obavezan633+0+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims Getting knowledge for analysis of law and other regulative forms where civil engineering is realized
Learning outcomes
Lecturer / Teaching assistantDr Snežana Rutešić, professor
MethodologyLectures, consultations and seminar paper.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesConcept and importance of building regulative. Law on land development and structures construction.
I week exercisesConcept and importance of building regulative. Law on land development and structures construction.
II week lecturesLaw on land development and structures construction. (continuation) .
II week exercises Law on land development and structures construction. (continuation) .
III week lecturesSub-law acts according to Law on land development and structures construction: about the way of license issue, on program and way of passing the professional exam, about the way of preparation and contents of technical documents n revision of conceptual a
III week exercisesSub-law acts according to Law on land development and structures construction: about the way of license issue, on program and way of passing the professional exam, about the way of preparation and contents of technical documents n revision of conceptual a
IV week lecturesSub-law act according to law on land development and structures construction: construction diary, measurement book, and inspections’ book ; professional supervision; soil observation; technical review and so on., - choice of topics for seminar paper
IV week exercisesSub-law act according to law on land development and structures construction: construction diary, measurement book, and inspections’ book ; professional supervision; soil observation; technical review and so on., - choice of topics for seminar paper
V week lecturesLaw on environment and similar laws,
V week exercisesLaw on environment and similar laws,
VI week lecturesProcurement law, Rules and forms of Procurement law
VI week exercisesProcurement law, Rules and forms of Procurement law
VII week lecturesFree week
VII week exercisesFree week
VIII week lecturesI preliminary exam
VIII week exercisesI preliminary exam
IX week lecturesLaw on business companies. Law on contractual obligations.
IX week exercisesLaw on business companies. Law on contractual obligations.
X week lecturesSpecial features on construction. građenju.
X week exercisesSpecial features on construction. građenju.
XI week lecturesLaw on protection at work. Technical measures of protection at work in civil engineering. Rulebook on contents of study paper on development.
XI week exercisesLaw on protection at work. Technical measures of protection at work in civil engineering. Rulebook on contents of study paper on development.
XII week lecturesGeneral conditions for contracting of international association FIDIK
XII week exercisesGeneral conditions for contracting of international association FIDIK
XIII week lecturesII preliminary exam
XIII week exercisesII preliminary exam
XIV week lecturesReview and defense of seminar paper
XIV week exercisesReview and defense of seminar paper
XV week lecturesMake-up exam
XV week exercisesMake-up exam
Student workloadWeekly 3 credits x 40/30 = 4 hours Total workload for the course 3x30 = 90 hours
Per weekPer semester
3 credits x 40/30=4 hours and 0 minuts
3 sat(a) theoretical classes
0 sat(a) practical classes
0 excercises
1 hour(s) i 0 minuts
of independent work, including consultations 		Classes and final exam:
4 hour(s) i 0 minuts x 16 =64 hour(s) i 0 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
4 hour(s) i 0 minuts x 2 =8 hour(s) i 0 minuts
Total workload for the subject:
3 x 30=90 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)
18 hour(s) i 0 minuts
Workload structure: 64 hour(s) i 0 minuts (cources), 8 hour(s) i 0 minuts (preparation), 18 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methodsIt is given minimal and maximal number of points which student is able to get in the scope of elements which are rated, where student must get in any case the prescribed minimal number of points: - Attendance at teaching courses and exercises (obligatory
Special remarksExercises are performed in groups which are announced by Students’ office. The preliminary exam includes tasks and test with theoretical questions where student must give minimum 45 correct answers. Theme preparation of seminar paper is permitted. (up to
CommentFurther information can be got at the course teacher, assistant, and manager of the study program and at the vice-dean.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / THEORY OF STRUCTURES

Course:THEORY OF STRUCTURES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
5702Obavezan363+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer 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:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / MANAG. OF CONSTR. RECONSTR.& MAINTEN. OF BUILDINGS

Course:MANAG. OF CONSTR. RECONSTR.& MAINTEN. OF BUILDINGS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
5711Obavezan573+3+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims Learning from the theory of designing of building organization, reconstruction and structures maintenance, especially knowledge on basic methods of planning and its application in civil engineering practice.
Learning outcomes
Lecturer / Teaching assistantDr Nenad Ivanišević - professor
MethodologyLectures, exercises, consultations, site visits.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction. Concept of basic function of management. Areas of management (according to PMI)
I week exercisesIntroduction. Concept of basic function of management. Areas of management (according to PMI)
II week lecturesPlanning. Plans division. Basic principles of planning.
II week exercises Planning. Plans division. Basic principles of planning.
III week lecturesNorms in civil engineering. Calculation of activities duration.
III week exercisesNorms in civil engineering. Calculation of activities duration.
IV week lecturesCalculation of work position costs.
IV week exercisesCalculation of work position costs.
V week lecturesMethodology of making of dynamic plans of works.
V week exercisesMethodology of making of dynamic plans of works.
VI week lecturesI PRELIMINARY EXAM
VI week exercisesI PRELIMINARY EXAM
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesActivities list WBS, Types of connections among activities. Structure of the net plan.
VIII week exercisesActivities list WBS, Types of connections among activities. Structure of the net plan.
IX week lecturesCalculation of the net plan,
IX week exercisesCalculation of the net plan,
X week lecturesTime reserves. Critical activities and critical way.
X week exercisesTime reserves. Critical activities and critical way.
XI week lecturesBar charts , Histograms of working force and constructional plant,
XI week exercisesBar charts , Histograms of working force and constructional plant,
XII week lecturesDiagrams of finance, Orthogonal plans.
XII week exercisesDiagrams of finance, Orthogonal plans.
XIII week lecturesSchema work organization.
XIII week exercisesSchema work organization.
XIV week lecturesProject contents of organization and technologies of works execution.
XIV week exercisesProject contents of organization and technologies of works execution.
XV week lecturesII PRELIMINARY EXAM
XV week exercisesII PRELIMINARY EXAM
Student workloadWeekly 7 credits x 40/30 = 9 hours 20 min. Total workload for the structure 7.0x30 = 210 hours
Per weekPer semester
7 credits x 40/30=9 hours and 20 minuts
3 sat(a) theoretical classes
0 sat(a) practical classes
3 excercises
3 hour(s) i 20 minuts
of independent work, including consultations 		Classes and final exam:
9 hour(s) i 20 minuts x 16 =149 hour(s) i 20 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
9 hour(s) i 20 minuts x 2 =18 hour(s) i 40 minuts
Total workload for the subject:
7 x 30=210 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)
42 hour(s) i 0 minuts
Workload structure: 149 hour(s) i 20 minuts (cources), 18 hour(s) i 40 minuts (preparation), 42 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods- Attendance of lectures : 5 points - exercises – making of graphical (seminar) paper 10 points - 2 preliminary exam : 2x25 points - final exam : ≤ 35 points - Sufficient mark is got if you collect 51 points.
Special remarksExercises (V) are performed for the groups up to 20 students. If it is necessary the lectures can be performed in English. Examples from building practice can be done in exercises which will be completed at the end like study paper.
CommentFurther information can be got at the course teacher, manager of the study program, and vice-dean
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / MANAGEMENT OF CONSTRUCTION COMPANIES

Course:MANAGEMENT OF CONSTRUCTION COMPANIES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
5713Obavezan663+3+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
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 assistantDr Miloš Knežević-professor
MethodologyLectures, exercises, consultations, site visit.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction. Basic concepts from the theory of system and management of system.
I week exercisesIntroduction. Basic concepts from the theory of system and management of system.
II week lecturesSystem 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 lecturesDefinition and company division. Vision, mission and aims of the company.
III week exercisesDefinition and company division. Vision, mission and aims of the company.
IV week lecturesCompany foundation. Forms and proprietary structure (business company, capital association, public company, holding
IV week exercisesCompany foundation. Forms and proprietary structure (business company, capital association, public company, holding
V week lecturesConnections 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 exercisesConnections 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 lecturesFREE WEEK
VI week exercisesFREE WEEK
VII week lecturesI TEST
VII week exercisesI TEST
VIII week lecturesFunctions 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 exercisesFunctions 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 lecturesOrgans and organizational structure of construction company. Business units (building, sites, production plants, presentations).
IX week exercisesOrgans and organizational structure of construction company. Business units (building, sites, production plants, presentations).
X week lecturesFinance management, indicators of business success (balance of state, balance of success), revision of accounting data.
X week exercisesFinance management, indicators of business success (balance of state, balance of success), revision of accounting data.
XI week lecturesMarketing in construction company.
XI week exercisesMarketing in construction company.
XII week lecturesSWOT analysis of the construction company.
XII week exercisesSWOT analysis of the construction company.
XIII week lecturesBenchmarking of construction company.
XIII week exercisesBenchmarking of construction company.
XIV week lecturesRe-engineering of business processes in construction company.
XIV week exercisesRe-engineering of business processes in construction company.
XV week lecturesII TEST
XV week exercisesII TEST
Student workloadWeekly 6 credits x 40/30 = 8 Total workload for the course 6.0x30 = 180 hours
Per weekPer semester
6 credits x 40/30=8 hours and 0 minuts
3 sat(a) theoretical classes
0 sat(a) practical classes
3 excercises
2 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, completed seminar paper.
ConsultationsThroughout the semester continuously
Literaturebasic: 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 remarksExercies 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
CommentFurther information can be got at the course teacher, manager of study program and at vice-dean of teaching courses..
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / COMPUTER APPLICATION FOR PROJECT MANAGEMENT

Course:COMPUTER APPLICATION FOR PROJECT MANAGEMENT/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
5714Obavezan641+0+2
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites Student must finished study paper – seminar paper from the course Building organization and constructional plant and Designing of building organization, reconstruction and structure maintenance
Aims : Learning for recognition of possible ways of application of informative technologies for more efficient project management. Getting skills in work with specific program packages for planning and maintenance of projects and making of dynamic plans by usage of the
Learning outcomes
Lecturer / Teaching assistantDr Snežana Rutešić - professor
MethodologyTeaching courses, consultations, preliminary exams, seminar papers
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesP – Possibility of computer usage and informative technologies in civil engineering / V- test
I week exercisesTest for checking knowledge
II week lecturesPossibility of computer usage and informative technologies in projects management (continuation)
II week exercises - Net plans: analysis of structure and time (renewal from the seminar paper of the student from the course Building organization and constructional plant and Designing of building organization, reconstruction and structures maintenance)
III week lecturesNorms, prices analysis, static plans and composition of the working brigades
III week exercisesStarting program for planning and Project realization, reviews, elements (choice of program for presentation and defense of seminar paper
IV week lecturesNorms, prices analysis, static plans and composition of working brigades ; connection with the program for planning and maintenance of the projects
IV week exercisesFund calculation of the working time with the usage of the program for table calculation. Opening of the new project, definition of the project calendar, activities input, interdependence, net diagram.
V week lecturesNet plans: analysis of structure and time; connection with the program for planning and projects maintenance
V week exercisesProgram for planning and projects maintenance: input of interdependence, net diagram, adaptation of review
VI week lecturesNet plans: analysis of the structure and time; connection with the program for planning and project maintenance
VI week exercisesProgram for planning and projects maintenance: giving of resources –working force and material (leveling of diagrams of working force)
VII week lecturesFREE WEEK
VII week exercisesFREE WEEK
VIII week lecturesI PRELIMINARY EXAM
VIII week exercisesI PRELIMINARY EXAM
IX week lecturesShort review of the current problems on projects management
IX week exercisesProgram for planning and projects maintenance - Giving of resources: material, constructional plant (leveling in many resources)
X week lecturesPert method
X week exercisesProgram for planning and maintenance of projects: input of costs, dynamical plans of resources and costs, basic plan.
XI week lecturesPert method-continuation
XI week exercisesProgram for planning and maintenance of projects:-preparation for printing and printing of reports
XII week lecturesControl and monitoring of the plans realization: elements and methods
XII week exercisesProgram for planning and maintenance of projects:
XIII week lectures Revision and defense of seminar papers
XIII week exercisesProgram for planning and maintenance of projects: maintenance of realization of the basic plan,
XIV week lecturesII PRELIMINARY EXAM – Review and defense of seminar paper
XIV week exercisesII PRELIMINARY EXAM – Review and defense of seminar paper
XV week lecturesMAKE-UP EXAM
XV week exercisesMAKE-UP EXAM
Student workloadWeekly 4 credits x 40/30 = 5 hours 20 min. Total workload for the course 4.0x30 = 120 hours
Per weekPer semester
4 credits x 40/30=5 hours and 20 minuts
1 sat(a) theoretical classes
2 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
Consultations
Literature
Examination methodsBelow are given necessary minimal points and maximal points which student can get according to: attendance of courses, doing of seminar paper, passing preliminary exam. In order to pass the exam for each state the student must get minimal prescribed poi
Special remarksLab exercises (in computer room) are realized in groups depending on the number of available computers. Preliminary exam and exam are passed electronically. Seminar paper is composed of two equal parts: review of the chosen program for usage in projects m
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONSTRUCTION MANAGEMENT

Course:CONSTRUCTION MANAGEMENT/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
5715Obavezan643+0+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
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 assistantProf. dr Miloš Knežević Mr Mladen Gogić
MethodologyLectures and consultations, visits to construction companies
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction; Definition, genesis, functions, and classification of management, historical development, management schools
I week exercisesPreparation for exercises. Basic instructions.
II week lecturesManagement 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 lecturesManagement functions - Organizing; Basic principles, definitions, conditions, and possible organizational models; Sustainable development
III week exercisesSeminar paper, consultations, and review.
IV week lecturesDivision of labor and specialization in construction
IV week exercisesSeminar paper, consultations, and review.
V week lecturesDefinition of organization, organization functioning, organizational means.
V week exercisesSeminar paper, consultations, and review.
VI week lecturesOrganizational behavior and human resource management
VI week exercisesSeminar paper, consultations, and review.
VII week lecturesFIRST TEST
VII week exercisesFIRST TEST
VIII week lecturesManagement functions - Leading; Definition of leadership and leadership; Basic qualities of successful leadership; Leadership and management styles
VIII week exercisesSeminar paper, consultations, and review.
IX week lecturesMotivational processes and motivation for work
IX week exercisesSeminar paper, consultations, and review.
X week lecturesManagement functions - Control and coordination; Control of the production process in construction; Coordination.
X week exercisesSeminar paper, consultations, and review.
XI week lecturesStrategic management; Definition, goal, division, classification, and role in the functioning of construction companies. Competitive behavior in design and construction processes
XI week exercisesSeminar paper, consultations, and review.
XII week lecturesNegotiation strategies and techniques and conducting business meetings.
XII week exercisesSeminar paper, consultations, and review.
XIII week lecturesCommunication and information processes; Making business decisions.
XIII week exercisesSeminar paper, consultations, and review.
XIV week lecturesSECOND TEST
XIV week exercisesSECOND TEST
XV week lecturesEvaluation of seminar paper
XV week exercisesEvaluation of seminar paper
Student workloadWeekly: 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 weekPer semester
4 credits x 40/30=5 hours and 20 minuts
3 sat(a) theoretical classes
0 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 To regularly attend lectures and exercises, take tests
ConsultationsThroughout the semester continuously
LiteratureV. 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 methodsMinimum 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
CommentFurther information on the course can be got at the course teacher, assistant, manager of the study program, at the vice-dean for the teachning courses
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / DESIGN AND CONSTRUCTION OF CONCRETE STRUCTURES

Course:DESIGN AND CONSTRUCTION OF CONCRETE STRUCTURES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
6536Obavezan442+.5+.5
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
4 credits x 40/30=5 hours and 20 minuts
2 sat(a) theoretical classes
0 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
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / COMPOSITE STRUCTURES

Course:COMPOSITE STRUCTURES/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
7837Obavezan432+.5+.5
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
3 credits x 40/30=4 hours and 0 minuts
2 sat(a) theoretical classes
0 sat(a) practical classes
0 excercises
1 hour(s) i 0 minuts
of independent work, including consultations 		Classes and final exam:
4 hour(s) i 0 minuts x 16 =64 hour(s) i 0 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
4 hour(s) i 0 minuts x 2 =8 hour(s) i 0 minuts
Total workload for the subject:
3 x 30=90 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)
18 hour(s) i 0 minuts
Workload structure: 64 hour(s) i 0 minuts (cources), 8 hour(s) i 0 minuts (preparation), 18 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CIVIL ENGINEERING MECHANICS

Course:CIVIL ENGINEERING MECHANICS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
8347Obavezan152+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims Introduction of basic principles and methods of static analysis, and their application in the study of equilibrium of basic systems in civil engineering practice.
Learning outcomes Upon successful completion, the students will be able to: 1. Understand and apply the principles of equilibrium of particles and rigid bodies; 2. Understand the dry friction concept and analyze the equilibrium of rigid bodies subjected to this force; 3. Understand definition and classification of structural members and structures, supports and load types; 4. Compute the reaction forces in statically determinate beams; 5. Compute and construct bending moments and shear force diagrams and utilize this information in engineering design.
Lecturer / Teaching assistantOlga Mijušković - Associate Professor
MethodologyLectures, calculation exercises. Learning and individual work tasks. Consultations.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesGeneral principles. Introduction to the basic quantities and idealizations of mechanics. Newton’s laws. Supports, connection types and reaction forces.
I week exercisesExample: Force vectors. Add forces and resolve them into components. Express force and position in Cartesian vector form and determine vector’s magnitude and direction.
II week lecturesStatics of particles. Concurrent forces. Resultant of concurrent forces. Equilibrium of a particle. Free body diagrams.
II week exercises Example: Solve particle equilibrium problems.
III week lecturesStatics of rigid bodies. Moment of a force about a point, moment of a force about an axis, Varignon's theorem.
III week exercisesExample: Calculate moment of a force. Find the moment of a force about a specified axis.
IV week lecturesMoment of the couple. Resultant and equilibrium of the couples.
IV week exercisesExample: Define the moment of a couple. Determine the resultants of nonconcurrent force systems.
V week lecturesReduction of a force to a point. Arbitrary system of forces. Equations of equilibrium for a rigid body
V week exercisesExample: Solve rigid-body equilibrium problems.
VI week lecturesFriction. Friction force, static friction, kinetic friction, normal force, coefficient of static friction, angle of friction.
VI week exercisesExample: Equilibrium of rigid bodies subjected to dry friction.
VII week lecturesFree weeek
VII week exercisesFree weeek
VIII week lecturesAnalysis of structures. Beam theory. Internal forces, definitions and sign conventions.
VIII week exercisesExample: Character and load types. Supports, connection types and reaction forces. FIRST TEST
IX week lecturesRelationships between the applied loads and the internal shear force and bending moment in a beam.
IX week exercisesExample: Formulation of equations that describe internal shear and moment throughout a member.
X week lecturesAnalysis of the beams. Tension, shear and moment diagrams.
X week exercisesExample: Introduction to basic rules of shear and moment diagram evaluation.
XI week lecturesSimply supported beam and cantilever under different load types.
XI week exercisesExample: Simply supported beam and cantilever.
XII week lecturesOverhanging beams. Gerber beams.
XII week exercisesExample: Overhanging beams. Gerber beams.
XIII week lecturesTrusses. Graphical and analytical (method of joints, method of sections) methods.
XIII week exercisesExample: Determination of the forces in the members of a truss.
XIV week lecturesBasic frame structures.
XIV week exercisesExample: Equations of equilibrium. Tension, shear and moment diagrams.
XV week lecturesCenter of gravity. Definition of centroid. Centroids of composite areas.
XV week exercisesExample: Centroids of composite areas. SECOND TEST
Student workloadWeekly 5.0 credits x 40/30 = 6 hours and 40 min. Total course hours : 5.0 x 30 = 160 hours
Per weekPer 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 All students are normally required to attend all learning and teaching sessions associated with the programme of study and fulfill all requested course assignments (homework, tests, and/or final exams).
Consultations
LiteratureLiterature: Građevinska mehanika 1 – Statika - R. Pejović Mehanika I - Statika, L. Vujošević
Examination methodsForms of Assessment: - Regular attendance - max 4 points - Homework – 4 x 1.5 = max 6 points - Tests - 2 x 45 (min 20) - Final exam - <50 points Important notes: -Attendance (lectures and tutorials): min 60 % -Passing grade is obtained wit
Special remarks
CommentAdditional information can be obtained from the subject teacher, head of the study program and Vice dean for Education.
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / ENGINEERING ECOLOGY

Course:ENGINEERING ECOLOGY/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
8348Obavezan132+1+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites None.
Aims Acquiring basic knowledge in the field of ecological engineering.
Learning outcomes After having passed the exam, students will be able to:
1. Explain basic ecological terms;
2. Explain global environmental issues and principles of sustainable development;
3. Calculate concentration of pollutants in the air;
4. Calculate volume of noise expressed in proper units;
5. Apply environmental principles of construction;
6. Assess construction environmental impacts.
Lecturer / Teaching assistantDoc. dr Milan Radulović – lecturer / assistant
MethodologyLectures, exercises, fieldwork, seminar papers, consultations.
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction. Environmental concept. History of human impact on the environment.
I week exercisesIntroduction. Environmental concept. History of human impact on the environment.
II week lecturesFoundations of ecology. Ecological factors. Life form. Ecological niche. Biotope. Population. Biocenosis. Photosynthesis. Food types. Food chain. Trophic pyramid.
II week exercises Foundations of ecology. Ecological factors. Life form. Ecological niche. Biotope. Population. Biocenosis. Photosynthesis. Food types. Food chain. Trophic pyramid.
III week lecturesGlobal environmental issues. Climate changes. Ozone deplition. Acid rains.
III week exercisesGlobal environmental issues. Climate changes. Ozone deplition. Acid rains.
IV week lecturesSustainable development. Renewable resources. Non-renewable resources.
IV week exercisesSustainable development. Renewable resources. Non-renewable resources.
V week lecturesAir pollution. Pollutants classification. Control of air pollution. Impact of polluted air to building materials.
V week exercisesAir pollution. Pollutants classification. Control of air pollution. Impact of polluted air to building materials.
VI week lecturesNoise. Noise measurement. Noise control at source. Noise control along a route. Noise impact.
VI week exercisesNoise. Noise measurement. Noise control at source. Noise control along a route. Noise impact.
VII week lecturesI TEST, I COLLOQUIUM
VII week exercisesI TEST, I COLLOQUIUM
VIII week lecturesNatural and manmade environment. Settlement as ecosystem. Environmental approach in construction. Environmental impact of urbanization. Environmental assessment of building materials.
VIII week exercisesNatural and manmade environment. Settlement as ecosystem. Environmental approach in construction. Environmental impact of urbanization. Environmental assessment of building materials.
IX week lecturesGeotechnical aspects of environmental protection. Maps of terrain suitability for urbanization.
IX week exercisesGeotechnical aspects of environmental protection. Maps of terrain suitability for urbanization
X week lecturesEnergy efficiency. Environmental management.
X week exercisesEnergy efficiency. Environmental management..
XI week lecturesEnvironmental risk assessment. Strategic environmental impact assessment (impacts of plans).
XI week exercisesEnvironmental risk assessment. Strategic environmental impact assessment (impacts of plans)..
XII week lecturesEnvironmental impact assessment (impacts of projects).
XII week exercisesEnvironmental impact assessment (impacts of projects)..
XIII week lecturesReview anddefence of seminar papers.
XIII week exercisesReview anddefence of seminar papers.
XIV week lecturesMock test and colloqium.
XIV week exercisesMock test and colloqium.
XV week lecturesII TEST, II COLLOQUIUM
XV week exercisesII TEST, II COLLOQUIUM
Student workloadWeekly
3.0 credits x 40/30 = 4 hours
Total workload for the Subject 3.0x30 = 90 hours
Per weekPer semester
3 credits x 40/30=4 hours and 0 minuts
2 sat(a) theoretical classes
0 sat(a) practical classes
1 excercises
1 hour(s) i 0 minuts
of independent work, including consultations 		Classes and final exam:
4 hour(s) i 0 minuts x 16 =64 hour(s) i 0 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
4 hour(s) i 0 minuts x 2 =8 hour(s) i 0 minuts
Total workload for the subject:
3 x 30=90 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)
18 hour(s) i 0 minuts
Workload structure: 64 hour(s) i 0 minuts (cources), 8 hour(s) i 0 minuts (preparation), 18 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Krnjetin S. (2003) Graditeljstvo i zaštita životne sredine. Prometej, Novi Sad
Han D. (2012) Concise environmental engineering. Bookboon, London
Gaur R.C. (2008) Basic Environmental Engineering. NA International
Kaushik C.P., Bhavikatti
Examination methodsTests and grading scale:
- Attendance to lectures and exercises: min credits (for 70% attendance): 2 max credits: 4
- Tests, seminar papers, etc.: min credits 13 max credits: 24
- Colloqiums: min credits 36 ma
Special remarks
CommentConsultations: as it will be agreed Further information about the Subject: to be provided by the lecturer
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / CONSTRUCTION PHYSICS AND INSTALLATIONS

Course:CONSTRUCTION PHYSICS AND INSTALLATIONS/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
8349Obavezan242+2+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
4 credits x 40/30=5 hours and 20 minuts
2 sat(a) theoretical classes
0 sat(a) practical classes
2 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
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / ECOLOGY OF WATER AND SOIL

Course:ECOLOGY OF WATER AND SOIL/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
8350Obavezan233+1+0
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites None.
Aims Introducing issues of water and soil contamination.
Learning outcomes After having passed the exam, students will be able to: 1. Explain functioning of aquatic ecosystems; 2. Classify pollutants and contaminants of waters; 3. Explain transport processes of pollutants in water; 4. Create cadastar of water contaminants; 5. Create maps with risks of grounwater contamination; 6. Calculate guaranteed ecological flow of water flows; 7. Explain properties of soil; 8. Categorize damages of soil; 9. Explain causes for soil contamination.
Lecturer / Teaching assistantDoc. dr Milan Radulović - lecturer / assistant
MethodologyLectures, exercises, consultations, homeworks, etc..
Plan and program of work
Preparing weekPreparation and registration of the semester
I week lecturesIntroduction. General properties of water. Physical properties of water. Chemical composition of water.
I week exercisesIntroduction. General properties of water. Physical properties of water. Chemical composition of water.
II week lecturesMicrobiologic composition of water. Radiologic composition of water. Water quality testing. Laboratory equipment.
II week exercises Microbiologic composition of water. Radiologic composition of water. Water quality testing. Laboratory equipment.
III week lecturesMacrocomponent-based water classification. Graphic presentation of chemical composition. Water aggressivity to building materials.
III week exercisesMacrocomponent-based water classification. Graphic presentation of chemical composition. Water aggressivity to building materials.
IV week lecturesQuality of aquatic ecosystems. Levels of ecological organization. Organisms in aquatic ecosystems. Food chain in aquatic ecosystems. Nitrogen and phosphorus cycles in nature.
IV week exercisesQuality of aquatic ecosystems. Levels of ecological organization. Organisms in aquatic ecosystems. Food chain in aquatic ecosystems. Nitrogen and phosphorus cycles in nature.
V week lecturesEutrophication. Changes of dilute oxygen in recipient. Saprobic index. Quality components of aquatic ecosystems.
V week exercisesEutrophication. Changes of dilute oxygen in recipient. Saprobic index. Quality components of aquatic ecosystems.
VI week lecturesContamination of natural waters. Contamination sources (contaminants). Pollution matters (pollutants). Basic procceses of transport and transformation of pollutants in natural waters.
VI week exercisesContamination of natural waters. Contamination sources (contaminants). Pollution matters (pollutants). Basic procceses of transport and transformation of pollutants in natural waters.
VII week lecturesI TEST; I COLLOQIUM
VII week exercisesI TEST; I COLLOQIUM
VIII week lecturesMap of groundwater vulnerability. Map of hazard and risk of groundwater contamination.
VIII week exercisesMap of groundwater vulnerability. Map of hazard and risk of groundwater contamination.
IX week lecturesProtection of drinking water sources. Determination and maintenance of zones and bands of sanitary protection of water sources. Test of marking groundwater in order to simulate motions of possible pollutants.
IX week exercisesProtection of drinking water sources. Determination and maintenance of zones and bands of sanitary protection of water sources. Test of marking groundwater in order to simulate motions of possible pollutants.
X week lecturesEnvironmental impact of hydrotechnical reservoirs- negative and positive impacts.
X week exercisesEnvironmental impact of hydrotechnical reservoirs- negative and positive impacts.
XI week lecturesLand-soil. Morpological properties of soil. Physical properties of soil. Chemical properties of soil.
XI week exercisesLand-soil. Morpological properties of soil. Physical properties of soil. Chemical properties of soil.
XII week lecturesSoil fertility. Land degradation. Land destruction. Exclusion of agricultural land.
XII week exercisesSoil fertility. Land degradation. Land destruction. Exclusion of agricultural land.
XIII week lecturesSoil contamination (by radionicludes, heavy metals, mineral fertilizers, pesticides, acid rains, pathogenic microorganism, etc.)
XIII week exercisesSoil contamination (by radionicludes, heavy metals, mineral fertilizers, pesticides, acid rains, pathogenic microorganism, etc.)
XIV week lecturesReviewing of lectures.
XIV week exercisesReviewing of lectures.
XV week lecturesII TEST; II COLLOQUIUM
XV week exercisesII TEST; II COLLOQUIUM
Student workloadWeekly
3.0 credits x 40/30 = 4 hours
Total workload for the Subject 3.0x30 = 90 hours
Per weekPer semester
3 credits x 40/30=4 hours and 0 minuts
3 sat(a) theoretical classes
0 sat(a) practical classes
1 excercises
0 hour(s) i 0 minuts
of independent work, including consultations 		Classes and final exam:
4 hour(s) i 0 minuts x 16 =64 hour(s) i 0 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
4 hour(s) i 0 minuts x 2 =8 hour(s) i 0 minuts
Total workload for the subject:
3 x 30=90 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)
18 hour(s) i 0 minuts
Workload structure: 64 hour(s) i 0 minuts (cources), 8 hour(s) i 0 minuts (preparation), 18 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
LiteratureLiterature:
Vujasinović S., Matić I. (2009) Osnovi hidrogeoekologije. Rudarsko-geološki fakultet, Univerzitet u Beogradu, Beograd, p. 276
Schmitz R.J. (2008) Uvod u biologiju zagađenih voda. NVO Green Home, Podgorica, p.352 Mazor E. (2004) Ch
Examination methods
- Attendance to lectures and exercises: min credits (for 70% attendance): 2 max credits: 4
- Tests, exercises and homeworks: min credits 13 max credits: 24
- Colloqiuums: min credits 36 max credits: 72
TOTAL CRE
Special remarks
CommentConsultations: as it will be agreed
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / GEOTECHNICS IN CIVIL ENGINEERING

Course:GEOTECHNICS IN CIVIL ENGINEERING/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
8355Obavezan373+1+2
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer semester
7 credits x 40/30=9 hours and 20 minuts
3 sat(a) theoretical classes
2 sat(a) practical classes
1 excercises
3 hour(s) i 20 minuts
of independent work, including consultations 		Classes and final exam:
9 hour(s) i 20 minuts x 16 =149 hour(s) i 20 minuts
Necessary preparation before the beginning of the semester (administration, registration, certification):
9 hour(s) i 20 minuts x 2 =18 hour(s) i 40 minuts
Total workload for the subject:
7 x 30=210 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)
42 hour(s) i 0 minuts
Workload structure: 149 hour(s) i 20 minuts (cources), 18 hour(s) i 40 minuts (preparation), 42 hour(s) i 0 minuts (additional work)
Student obligations
Consultations
Literature
Examination methods
Special remarks
Comment
Grade:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points

Faculty of Civil Engineering / MANAGEMENT IN CIVIL ENGINEERING / ENERGY EFFICIENCY

Course:ENERGY EFFICIENCY/
Course IDCourse statusSemesterECTS creditsLessons (Lessons+Exercises+Laboratory)
8357Obavezan652+1+1
ProgramsMANAGEMENT IN CIVIL ENGINEERING
Prerequisites
Aims
Learning outcomes
Lecturer / Teaching assistant
Methodology
Plan and program of work
Preparing weekPreparation 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 weekPer 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:FEDCBA
Number of pointsless than 50 pointsgreater than or equal to 50 points and less than 60 pointsgreater than or equal to 60 points and less than 70 pointsgreater than or equal to 70 points and less than 80 pointsgreater than or equal to 80 points and less than 90 pointsgreater than or equal to 90 points
SmartWB
SmartWB
CIVIL ENGINEERING - SCIENCE AND PRACTICE
CIVIL ENGINEERING - SCIENCE AND PRACTICE
FLORIAS
FLORIAS
Alumni club
Alumni club
Informator
Informator
Publications
Publications
EUA
EUA
Bulletins
Bulletins
E-theses
E-theses