Syllabus Civil Engineering I

Radlinského 11 [email protected]

813 68 Bratislava T: +421 949 759 069

Slovak Republic

www.stuba.sk

Curriculum and Sylabus of Civil Engineering Study Programme

Study programme: Civil Engineering

Level of study: bachelor

Form of study: full-time

Study programme guarantor: doc. Ing. Jozef Dický, PhD.

Standard length of study: 3 years

Code Course in EN Lecturer Dept. Extent * Sem. Credits

1st y

ear

B-DA_C History of Architecture Húsenicová ARCH 2/0 k 1 2

B-DG_C Constructive geometry Knor MDG 2/2 s 1 5

B-EI_C Environmental Engineering Škultétyová ZEI 2/2 s 1 5

B-G_C Geology Ondrášik GTE 2/2 s 1 5

B-M1_C Mathematics 1 Šiagiová MDG 2/3 s 1 6

B-SM_C Building Materials Pavlík MTI 2/2 s 1 5

B-AJ1_C Advanced English Gambrill JAZ 0/2 k 1 2

B-SJ1_C Slovak Language Špildová JAZ 0/2 1 0

30

B-F_C Physics Lukovičová FYZ 2/2 s 2 5

B-GS_C Surveying in CE Kopáčik GDE 2/2 s 2 5

B-I1_C Information technology 1 Krivá MDG 0/1 k 2 1

B-M2_C Mathematics 2 Krivá MDG 3/3 s 2 7

B-PS1_C Constructions in Architecture 1 Minarovičová KPS 2/2 s 2 5

B-S_C Statics Ravinger SME 2/2 s 2 5

B-AJ2_C Advanced English Gambrill JAZ 0/2 k 2 2

B-SJ2_C Slovak Language Špildová JAZ 0/2 2 0

30

2n

d y

ear

B-HVH_C Hydrology and Water Resources Management

Szolgay VHK 2/2 s 3 5

B-H_C Hydromechanics Šoltész HTE 2/2 s 3 5

B-M3_C Matematics 3 Šiagiová MDG 2/2 s 3 5

B-PP_C Theory of Elasticity Hubová SME 3/2 s 3 5

B-SE_C Building Economy Somorová TES 2/2 s 3 5

B-SF_C Building Physics Chmúrny KPS 2/2 s 3 5

30

B-I2_C Information Technology 2 Krivá MDG 0/2 k 4 2

B-MZZ_C Soil Mechanics and Foundation Frankovská GTE 3/3 s 4 7

B-NBK_C Design of Concrete Structures Bilčík BKM 3/2 s 4 6

B-PS2_C Constructions in Architecture 2 Hanuliak KPS 2/2 s 4 5

B-SME_C Structural Mechanics Dický SME 2/2 s 4 5

B-TZB1_C Building Services 1 Jánošková TZB 2/2 s 4 5

30

2

3rd

y

ear

B-AT_C Design Studio Šimkovičová SME 0/3 k 5 3

B-CAD_C CAD Mesiar MDG 0/2 k 5 2

B-NKK_C Structural Metal Design Baláž KDK 2/2 s 5 5

B-PS3_C Constructions in Architecture 3 Vargová KPS 2/2 s 5 5

B-TB_C Concrete Technology Bajza MTI 2/2 s 5 5

B-V_C Water Treatment and Water Supply Kriš ZEI 2/2 s 5 5

B-VC_C Road Construction Bezák, Ľos DOS 2/2 s 5 5

30

B-ZP_C Bc. Thesis Šoltész 0/9 k 6 10

B-SCOV_C Sewarage and Waste Water Treatment Kriš ZEI 2/2s 6 5

B-TZB2_C Building Services 2 Petráš TZB 2/2s 6 5

B-TV_C Building Technology Gašparík TES 2/2s 6 5

B-TN_C Real Estate Market Ivanička ÚM 2/2s 6 5

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* Extent of study is a number of lectures / seminars per week. Length of semester is 15 weeks.

“k” – means that a subject finishes with classified credit

“s” – means that subject is successfully completed by passing an exam

Syllabus:

B-DA C – History of Architecture Course supervisor: Ing. arch. Vladimíra Šimkovičová, PhD. (019 – Department of Architecture) Course time allowance: 2/0 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: To acquire knowledge about history of architecture from prehistory until 21st century. Teaching methods: lectures, exercise Completion requirements: Classified credit (2 credits) Recommended reading list: • Trachtenberg, M. Hyman, I. Architecture From Prehistory to Postmodernity, Prentice Hall 2002

Practical training: There is no compulsory work placement in the course unit.

B-DG C – Constructive geometry Course supervisor: prof. RNDr. Martin Knor, PhD. (023 – Department of Mathematics and Constructive Geometry) Course time allowance: den, 2/2; ext: 2/2 Taught for the form: full-time, attendance method, part-time, attendance method Prerequisite: none Aims and objectives: To learn basic methods of mapping of a space into a plane. Teaching methods: Lectures and exercises Completion requirements: Exam (5 credits) Support for distance study: none Basic reading list: • KNOR, M. Descriptive geometry. Bratislava: STU v Bratislave, 2009. 136 s. ISBN 978-80-227-3152-2.


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B-EI C – Environmental Engineering Course supervisor: doc. RNDr. Ivona Škultétyová, PhD. (029 – Department of Sanitary and Enviromental Engineering) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The goal of subject is receiving of knowledge interdisciplinary coordination of complex ranking expectation, positive and negative influence in ecosystem in constructing action without badly influence to the environment. Graduate student must be able to understand problems and bilateral relationships in environment. Must be able to analyze influences and then reach the conclusion. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • KIELY, G. Environmental Engineering. Boston: Irwin/McGraw-Hill, 1997. 979 s. ISBN 0-07-709127-2. • Engineering and environmental ethics : A Case Study Approach. New York: John Wiley & Sons, 1998. 303 s. ISBN 0-471-29236-2. • KIELY, G. Environmental engineering. Boston: McGraw-Hill, 1996. 979 s. ISBN 0-07-116424-3. • PEAVY, H. – ROWE, D. – TCHOBANOGLOUS, G. Environmental engineering. New York: 1985. 14 s. ISBN 0-07-100231-6. • KIELY, G. Environmental Engineering. London: McGraw-Hill, 1997. 979 s. ISBN 0-07-709127-2. • ŠKULTÉTYOVÁ , I. – STANKO,Š . – MAHRÍKOVÁ, I. Environmental engineering : Selected papers. Bratislava: STU v Bratislave, 2010. 162 s. ISBN 978-80-227-3289-5. • DAVIS, M L. – CORNWELL, D A. Introduction to environmental engineering. New York: McGraw-Hill, 1991. 822 s. ISBN 0-07-015911-4. • MASTERS, G M. Introduction to environmental engineering and science. Englewood Cliffs: Prentice Hall, 1991. 460 s. ISBN 0-13-481714-1. • TCHOBANOGLOUS, G. Solid waste management. In: Environmental Engineering, fifth edition. Hoboken, New Jersey: John Wiley & Sons, Inc., 2003. ISBN 0-471-41813-7.


B-G C – Geology Course supervisor: Mgr. Martin Ondrášik, PhD. (015 – Department of Geotechnics) Course time allowance: den, 2/2; ext: 0/0 Taught for the form: full-time, attendance method, part-time, attendance method Prerequisite: none Aims and objectives: To obtain the basic knowledges about the Earth. The overview of the Engineering geological condition of the building sites. Knowing the basic rocks and their properties. Geological processes: Underground waters. Methods of investigation. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • BLYTH, F. – FREITAS, M. A geology for engineers. London: Edward Arnold Publ, 1990. 10 s. • ČABALOVÁ , D. – BALIAK, F. – KOPECKÝ, M. Geológia. Bratislava: STU v Bratislave, 2009. 211 s. ISBN 978-80-227-3008-2. • SKINNER, B J. – PORTER, S C. The dynamic earth : An introduction to physical geology. New York: Wiley&Sons, 1992. 14 s. ISBN 0-471-53131-6.


B-M1 C – Mathematics 1 Course supervisor: doc. RNDr. Jana Šiagiová, PhD. (023 – Department of Mathematics and Constructive Geometry) Course time allowance: den, 2/3; ext: 2/3 Taught for the form: full-time, attendance method, part-time, attendance method Prerequisite: none

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Aims and objectives: On completion of the course students will understand foundations of linear algebra and single-variable calculus. In particular, students will have knowledge of analytic geometry, matrix theory, and the elimination method for solving systems of linear equations. Students will be able to apply knowledge of calculus to graphing functions of one variable and determining local and global extrema. Teaching methods: lectures, exercise Completion requirements: Exam (6 credits) Basic reading list: • SALAS, S L. – HILLE, E. Calculus : One and several variables. New York: Wiley&Sons, 1990. 1094 s. ISBN 0-471-61195-6. • WYLIE, R C. – BARRET, L C. Advanced engineering mathematics. New York: McGraw-Hill, 1995. 22 s. ISBN 0-07-113543-X. • KRIVÁ , Z. Mathematics I. Bratislava: STU v Bratislave, 2007. 103 s. ISBN 978-80-227-2715-0.


B-SM C – Building Materials Course supervisor: doc. Ing. Vladimír Pavlík, PhD. (027 – Department of Material Engineering) Course time allowance: den, 2/2; ext: 2/2 Taught for the form: full-time, attendance method, part-time, attendance method Prerequisite: none Aims and objectives: Students obtain encyclopaedical knowledge in the wide field that covers a whole range of building materials. The knowledge includes above all information on both physical and chemical properties of building materials, processes of their manufacture, on types of existing products and their appropriate use, and also information on test methods and skills in determining properties of building materials. The students, by completing this course, are expected to obtain a basic orientation in the wide range of building materials used in civil engineering. Such an orientation is necessary for a bachelor to obtain the experience needed for his professional career. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • DUGGAL, S. Building materials. New Delhi: New Age International(P)Ltd., 2007. 535 s. ISBN 81-224-1435-4. • COWAN, H J. – SMITH, P R. The science and technology of building materials. New York: Van Nostrand Reinhold, 1988. 13 s. ISBN 0-442-21799-4.


B-AJ1 C – English Language 1 Course supervisor: PhDr. Dagmar Špildová (032 – Department of Languages) Course time allowance: 0/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Obtaining or improving the theoretical and practical knowledge of technical language, understanding the structure of technical writing, being able to analyze, make excerpts, summarize and present orally the technical stuff. Improving the communication skills, professional communication and listening skills. Teaching methods: lectures, exercise Completion requirements: Classified credit (2 credits) Course description: 1. Introduction to University Studies and Civil Engineering 0/2 1.1 Studies at the university. 1.2 What is engineering 1.3 Making decisions 2. Numbers and shapes 0/2 2.1 Numbers and arithmetic operations

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2.2 Geometric shapes 3. Properties of materials 0/2 3.1 Vocabulary development 3.2 Forming nouns from adjectives 4. Building Materials 0/2 4.1 Bricks, cement 4.2 Mortar, concrete 5. Natural building materials 0/2 5.1 Stone, strawbales, bamboo, cordwood, cob, adobe 5.2 Properties and methods of utilization 5.3 Modifiers Basic reading list: • MURPHY, R. English Grammar in Use : A seft-study reference and practice book for intermediate students. With Answers. New Edition. Cambridge: Cambridge University Press, 1994. 350 s. ISBN 0-521-43680-X. • ŠPILDOVÁ , D. English for civil engineers. Bratislava: STU v Bratislave, 2011. 153 s. ISBN 978-80-227-3463-9.


B-SJ1 C – Slovak Language Course supervisor: PhDr. Dagmar Špildová (032 – Department of Languages) Course time allowance: 0/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The aim of the subject is to teach the basics of communication in Slovak to foreign students. They should learn the most common expressions used in everyday life and studies in Slovakia. The aim is to reach the CEFR level A1. Teaching methods: lectures, exercise Completion requirements: Credit (0 credits) Course description: 1. Welcome to Slovakia. 0/3 1.1 The most common phrases used in introduction, greetings. Slovak alphabet 2. Personal pronouns, nouns, gender. 0/3 2.1 Verbs, conjugations, irregular verbs 2.2 Negatives, numerals 3. Adjectives, possesive pronouns, pronouns čí?, aký? 0/3 3.1 Interior, house, flat, office. Orientation in the interior. 3.2 Adjectives, opposites. 4. Nominative, adjectives in predicative, numerals 0/3 4.1 Plural tantum, irregular verb stát’. 4.2 City, professions. Basic reading list: • ŠPANKOVÁ , E. – KAMENÁROVÁ , R. – TICHÁ , H. Krížom krážom. Bratislava: Univerzita Komenského v Bratislave, 2007. 187 s. ISBN 978-80-223-2441-0.


B-F C – Physics Course supervisor: Ing. Gabriela Pavlendová, PhD. (025 – Department of Physics) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Students will gain knowledge from classical mechanics through lectures and practical excercises.

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Teaching methods: Students will get credit for assignment elaboration and laboratory exercises and credit tests. The exam will have written and oral part. Completion requirements: Exam (5 credits) Basic reading list: • BINKO, J. – KAŠPAR, I. Fyzika stavebního inženýra. Praha: SNTL, 1983. 662 s. • ZÁMEČNÍK, J. – BANÍK, I. Fyzika. Bratislava: STU v Bratislave, 1992. 133 s.


B-GS C – Surveying in CE Course supervisor: prof. Ing. Alojz Kopáčik, PhD. (014 – Department of Surveying) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Students will obtain knowledge of plane surveying, measuring technology and the basic methodology of capturing and processing of surveying data. Students will understand the principles of construction the geodetic control, methods for measuring angles, distances and elevations, methodology for maps creation. They will get acquainted with activities of surveyors on sites. Completion requirements: Exam (5 credits) Basic reading list: • KAHMEN, H. – FAIG, W. Surveying. Berlin: Walter de Gruyter, 1988. 578 s. Recommended reading list: • Schofield, W – Breach, M., 2007: Engineering Surveying. UK : Elsevier Ltd., 2007. 622 pp. ISBN 978-0-7506-6948-8.


B-I1 C – Information technology 1 Course supervisor: doc. RNDr. Zuzana Krivá, PhD. (023 – Department of Mathematics and Constructive Geometry) Course time allowance: 0/1 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The aim of this text is to assist international students of the Civil Engineering Programme in the subject Information technology providing 1 hour of laboratory per week. The focus of the text is on explanation of the basic principles of Microsoft Excel 2007 in such way that the student is able to use it efficiently. The text tries to find practical examples meeting the needs of engineer. Teaching methods: 12 laboratories Completion requirements: Classified credit (1 credit) Support for distance study: no Course description: 1. creating formulas and thus focus on work with references and on copying the formulas. 0/2 2. basics of plotting ,predefined formulas – functions, interactive elements 0/2 3. solving equations 0/2 3.1 nonlinears equations 3.2 solving the linear system 4. basic statistics and useful functions 0/6 Basic reading list: • DUNCAN, A J. Quality Control and Industrial Statistics. Illinois: Richard D.Irwin, 1965. 902 s.

Practical training: no

B-M2 C – Mathematics 2 Course supervisor: doc. RNDr. Zuzana Krivá, PhD. (023 – Department of Mathematics and Constructive Geometry) Course time allowance: den, 3/3; ext: 0/0

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Taught for the form: full-time, attendance method, part-time, attendance method Prerequisite: none Aims and objectives: In the first part of the course students will gain knowledge of integral calculus of one-variable functions and their applications in geometry and physics. The second part of the course is devoted to first order differential equations and linear differential equations of higher order. The last part covers basic facts of multivariate calculus. Completion requirements: Exam (7 credits) Basic reading list: • SALAS, S L. – HILLE, E. Calculus : One and several variables. New York: Wiley&Sons, 1990. 1094 s. ISBN 0-471-61195-6. • WYLIE, R C. – BARRET, L C. Advanced engineering mathematics. New York: McGraw-Hill, 1995. 22 s. ISBN 0-07-113543-X.


B-PS1 C – Constructions in Architecture 1 Course supervisor: prof. Ing. Jozef Hraška, PhD. (018 – Department of Building Structures) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Gaining knowledge in the field of constructions in architecture. To understand principles of structural systems and construction elements interaction. Gaining knowledge of subsoil and building interaction, understand relation of subsoil to structural concept of the building. Completion requirements: Exam (5 credits) Basic reading list: • HORNIAKOVÁ, L. – KOL. Konštrukcie pozemných stavieb I. Bratislava: Jaga, 1999. 355 s. ISBN 80-967095-4-2. • OLÁH, J. – MIKULÁŠ , M. – MIKULÁŠOVÁ , D. Kreslenie konštrukcií v projektoch pozemných stavieb. Bratislava: STU v Bratislave, 1999. 163 s. ISBN 80-88905-10-9. • CHUDLEY, R. – GREENO, R. Building Construction handbook : incorporating current building. Amsterdam: Elsevier, 2008. 763 s. ISBN 978-0-7506-86228.


B-S C – Statics Course supervisor: prof. Ing. Milan Sokol, PhD. (026 – Department of Structural Mechanics) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Static analyses of statically determinate systems. Completion requirements: Exam (5 credits) Basic reading list: • FUNG, Y. Foundations of solid mechanics. Englewood Cliffs: Prentice Hall, 1965. 14 s. ISBN 0-13-329912-0. • BEER, F P. – JOHNSTON, R E. Vector mechanics for engineers : Statics and dynamics. New York: McGraw-Hill, 1988. 22 s. ISBN 0-07-079923-7. • Ravinger, J. – Sokol, M.: Statics of Structures, STU Bratislava 2009. Bratislava: STU, 2009. 91 s. ISBN 978-80-227-3029-7. • MEGSON, T. Structural and stress analysis. Amsterdam: Elsevier Academic Press, 2005. 724 s. ISBN 0-7506-6221-2.


B-AJ2 C – English Language 2 Course supervisor: prof. RNDr. Karol Mikula, DrSc. (032 – Department of Languages) Course time allowance: 0/2

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Taught for the form: full-time, attendance method Prerequisite: none Completion requirements: Classified credit (2 credits) Basic reading list: • MURPHY, R. English Grammar in Use : A self-study reference and practice book for intermediate students. With answers. Cambridge: The University Press, 1993. 8 s. ISBN 0-521-28723-5. • ŠPILDOVÁ , D. English for civil engineers. Bratislava: STU v Bratislave, 2011. 153 s. ISBN 978-80-227-3463-9.


B-SJ2 C – Slovak Language Course supervisor: PhDr. Dagmar Špildová (032 – Department of Languages) Course time allowance: 0/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The aim of the subject is to teach foreign students the basics needed for communication in Slovak. Students should learn the essential expressions used in everyday situations and studies in Slovakia. The aim is to reach the CEFR level A1-A2. Completion requirements: Credit (0 credits) Course description: 1. In a restaurant 0/3 1.1 Grammar – instrumental (case), pronouns 1.2 Prepositions, conjugations 2. At the university 0/3 2.1 Verbs – preteritum. 3. In a company 0/3 3.1 Dates, CV 3.2 Locative – prepositions, pronouns Basic reading list: • ŠPANKOVÁ , E. – KAMENÁROVÁ , R. – TICHÁ , H. Krížom krážom. Bratislava: Univerzita Komenského v Bratislave, 2007. 187 s. ISBN 978-80-223-2441-0.


B-HVH C – Hydrology and Water Resources Management Course supervisor: prof. Ing. Ján Szolgay, PhD. (016 – Department of Land and Water Resources Management) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Students will obtain basic knowledge of the areas of meteorology, climatology and hydrology including movement of air masses, atmosphere-land surface interactions, climate variability, the hydrological cycle, rainfall and runoff processes, precipitation, water level and discharge measurements, and data processing. The main emphasis is placed on runoff generation in catchments, estimating design discharges and rainfall -runoff modeling. Students will obtain basic knowledge of the areas of water resources systems analysis, water balance calculations, and prediction methods in water resources management, water legislation and international relations in water management. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Recommended reading list: • Dingman, S. L.: Physical hydrology, Macmillan, 2002, 646 pp. • 1. Beek, E., Loucks, P.D.: Water Resources Systems Planning and Management – an introduction to methods, models and applications. UNESCO 2005, ISBN 978-92-3-103998-0, 680 pp.


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B-H C – Hydromechanics Course supervisor: prof. Ing. Andrej Šoltész, PhD. (017 – Department of Hydraulic Engineering) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Theoretical background and practical solution of hydraulic problems. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • Handbook of applied hydraulics. New York: McGraw – Hill Book Company, 1952. 1272 s. • BEDIENT, P B. – HUBER, W C. Hydrology and floodplain analysis. Reading: Addison-Wesley Publishing Company, 1989. 19 s. ISBN 0-201-12056-9.


B-M3 C – Matematics 3 Course supervisor: doc. RNDr. Jana Šiagiová, PhD. (023 – Department of Mathematics and Constructive Geometry) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The course is intended to acquaint students with knowledge of infinite series, power series, the Fourier series and double and triple integrals with applications. Teaching methods: lectures, exercise Completion requirements: Classified credit (5 credits), Exam (5 credits) Basic reading list: • SALAS, S L. – HILLE, E. Calculus : One and several variables. New York: Wiley&Sons, 1990. 1094 s. ISBN 0-471-61195-6. • WYLIE, R C. – BARRET, L C. Advanced engineering mathematics. New York: McGraw-Hill, 1995. 22 s. ISBN 0-07-113543-X.


B-PP C – Theory of Elasticity Course supervisor: doc. Ing. Jozef Dický, PhD. (026 – Department of Structural Mechanics) Course time allowance: 3/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Student will be informed with the methods of calculation of the stress, and strain due to load effects of simple structural elements (tension, pressure, shear, torsion and bending) as well as from the effects of combined stress. Obtained basic knowledge used in the analysis of the instability of a simple beam with different boundary conditions. Student will also get some basic information on methods of the theory of elasticity of two-dimensional continuum (walls, slabs). Teaching methods: lectures, exercises Completion requirements: Exam (5 credits) Support for distance study: no Basic reading list: • 1. Ugural, A. C. – Fenster, N. K.: Advanced Strength and Applied Elasticity. London 1981..


B-SE C – Building Economy Course supervisor: doc. Ing. Viera Somorová, PhD. (028 – Department of Building Technology) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none

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Aims and objectives: Aims and objectives: Subject is divided to three integrated parts : student acquires knowledge of investment process during building LCC in the first part, the summary knowledge and practical ability of building administration and maintenance in the second part. The last part is oriented to acquirement of practical and theoretical knowledge of business area in building industry. Teaching methods: Brief synopsis of the subject: • characteristic of construction • investment process of building • LCC • administration of building • maintenance of building • outsourcing • space planning in building • organizational – juridical forms of firms • business plan Completion requirements: Exam (5 credits) Basic reading list: • MEIGS, R F. – MEIGS, W B. Accounting: The Basis for Business Decisions. New York: McGraw-Hill, 1987. 1059 s. ISBN 0-07-041640-0. • BLOCK, S B. – HIRT, G A. Foundations of financial management. Homewood: IRWIN, 1992. 700 s. ISBN 0-256-08355-X. • MAURICE, S. – SMITHSON, C W. Managerial Economics : Applied Microeconomics for Decision Making. Homewood: Richard D.Irwin, 1988. 662 s. ISBN 0-256-05914-4.


B-SF C – Building Physics Course supervisor: prof. Ing. Jozef Hraška, PhD. (018 – Department of Building Structures) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Aims and objectives: Design and evaluation thermal performance properties of building components and buildings. Principles of design building structures from view point required indoor environment and limited thermal balance in winter and summer season. Design of low energy buildings. Criteria and requirements for design effective thermal protection of buildings. Teaching methods: Brief synopsis of the subject: • History of design parameters of thermal protection of buildings in various built periods, comparison of basic parameters • Declared and design thermal values, conformity assessment • Thermal bridges and heat flow. Thermal losses through non-homogeus structures • Thermal performance of glass and glazing units • Energy need for heating, energy use for heating • Methods for limiting thermal losses and utilization of heat gains • Energy performace of buildings, energy certification, influence of thermal protection of buildings • Overheating in summer period, dynamic characteristics • Thermal stability of rooms in winter season, influence of various heating strategies • Criteria and requirements for thermal performance of building components and buildings • principles of measuring methods, testing methods for thermal performance properties of building components and building materials Completion requirements: Exam (5 credits) Support for distance study: No. Basic reading list: • CHMÚ RNY, I. Tepelná ochrana budov. Bratislava: Jaga, 2003. 214 s. ISBN 80-88905-27-3.

Practical training: No.

B-I2 C – Information Technology 2 Course supervisor: doc. RNDr. Zuzana Krivá, PhD. (023 – Department of Mathematics and Constructive Geometry) Course time allowance: 0/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The aim of this subject is to assist international students of the Civil Engineering Programme in getting basic skills in informatics necessary in their work, in writing their thesis, in preparing presentations and using advanced features of Excel. Teaching methods: 12 laboratories, 3 assignments, final test Completion requirements: Classified credit (2 credits) Support for distance study: no

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Course description: 1. Gimp, program for image manipulation. Resizing images, colour space, histogram, filter, animated gif, image enhancement. 0/4 2. Writing bachelor thesis in MS word 2007. 0/4 2.1 numbering the paragraphs, heading styles, creating the contents 2.2 captions and cross-references 2.3 citations and bibliography 2.4 index 2.5 writing mathematical formulas 3. VBA in Excel 0/8 3.1 Macro and recording a macro 3.2 simple programming tools 3.3 interactive elements 4. Animated gifs – set of charts produced using macros in EXCEL 0/2 4.1 Created set of images in gif format 4.2 batch conversions and slide shows in Irfanview 4.3 creating animated gifs by unfreeze tool 5. Power point presentation 0/2 5.1 properies of a good presentation 5.2 interaction in powerpoints 5.3 runing slide shows, creating animations 6. statistics in 0/4 6.1 central tendency and spread of the data 6.2 interpolation and approximations 6.3 regression and trends 7. overview of useful and helpful functions 0/2 Recommended reading list: • textbook: Z.Krivá, Information Tecnology I 20102 • Walkenbach, John. Excel 2007 Bible. Indianapolis : Wiley Publishing, Inc., 2007.

Practical training: no

B-MZZ C – Soil Mechanics and Foundation Course supervisor: prof. Ing. Peter Turček, PhD. (015 – Department of Geotechnics) Course time allowance: 3/3 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Learn the basic descriptive characteristics of soils necessary for their classification. The mechanical characteristics of soils (strength, deformability). Solution of stability and deformation task for application in foundation engineering. Based on the evaluation of engineeringgeological investigation decision the geotechnical category. Learn the basic principles of design of foundation structures and excavation pits, to know the design and technological methods of construction of foundation structures and temporary retaining systems. Completion requirements: Exam (7 credits) Basic reading list: • TURČEK, P. – HULLA, J. Zakladanie stavieb. Bratislava: JAGA group, s.r.o. Bratislava, 2004. 360 s. ISBN 80-88905-99-0. • TURČEK, P. – SLÁVIK, I. Zakladanie stavieb. Bratislava: STU v Bratislave, 2002. 281 s. ISBN 80-227-1699-5. • FRANKOVSKÁ , J. – SÚĽOVSKÁ , M. – TURČEK, P. Zakladanie stavieb : Podklady k navrhovaniu,plošné a hĺbkové základy. Bratislava: STU v Bratislave, 2011. 162 s. ISBN 978-80-227-3622-0.


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B-NBK C – Design of Concrete Structures Course supervisor: prof. Ing. Juraj Bilčík, PhD. (011 – Department of Concrete Structures and Bridges) Course time allowance: 3/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Physical properties of concrete, masonry and steel reinforcement. Classification of actions, characteristic and design values of actions. Basic informations about common structural design rules for everyday use for the design of whole concrete structures and components. The principles and requirements for the safety, serviceability and durability of concrete structures, the basis of their design and verification. Rheology, conditions for the design model and actions on concrete members and simple structures. Design of reinforced concrete beam under flexure and shear force and columns subjected to combination of normal force and bending moment. Students get informatively acquainted with Serviceability Limit States and design of masonry members. Teaching methods: • Physical and mechanical characteristics of concrete, steel reinforcement and masonry. • Structural analysis. Design model. Design process. Division of Ultimate Limit States. State of stresses I., II. and III. Axial and bending stiffness. • Actions on structures. Categories of design situations. Combination of actions. Spread of actions on load bearing members. • Design methods for concrete members. Safety Limit states. Flexure, shear and torsion strains in rectangular and T beams. Columns under combination of bending moment and axial load. • Serviceability Limit States. Stress limitation, crack and deflection control. Detailing of reinforcement in beams, slabs and columns. • Masonry members. Strength and deformation properties of masonry units and mortars. design of masonry members. Completion requirements: Exam (6 credits) Recommended reading list: • J.K.Wright and J.G.MacGregor: Reinforced Concrete, Mechanics and Design, Pearson Prentice Hall, 2009, 1112 pp.


B-PS2 C – Constructions in Architecture 2 Course supervisor: Ing. arch. Dr. Roman Rabenseifer (018 – Department of Building Structures) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Students will acquire theoretical knowledge of the principles of structural design and related material and technology elements and details of selected parts of the building construction. They will acquire knowledge of general features and requirements for ceiling structures, overhead structures, basements, chimneys, stairs, walls, floors and expansion. Students will be able to apply the theoretical knowledge in a building practice through training on individual assignments. Teaching methods: - Groundwater and soil moisture, waterproofing system of the lower structure and its design principles. – Basic physical and technical requirements, design solutions for basements. – Principles; construction, technical and physical requirements for ceiling structures based on different materials; the basics of building acoustics. –Terminology; principles of design, structural modifications of suspension structures. – Terminology; classification, requirements, design and a way of supporting the staircase components; railings and stair finishes. Completion requirements: Exam (5 credits) Basic reading list: • HORNIAKOVÁ , L. – KOL. Konštrukcie pozemných stavieb I. Bratislava: Jaga, 1999. 355 s. ISBN 80-967095-4-2. • HYKŠ , P. – GIECIOVÁ , M. Konštrukcie pozemných stavieb II. : Rampy – schody – rebríky Bratislava: STU v Bratislave, 2002. 150 s. ISBN 80-227-1732-0.


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B-SME C – Structural Mechanics Course supervisor: Dr.h.c. prof. Ing. Ján Ravinger, DrSc. (026 – Department of Structural Mechanics) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The introduction to the problems of computational mechanic are explained. The beam type structures are taken as the introduction. The Finite Element Method (FEM) is used for the solution of the plane and space structures. The computer programs for the theory of structures are used. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Support for distance study: - Basic reading list: • PRZEMIENIECKI, J. Theory of Matrix Structural Analysis. New York: Mc Graw-Hill Book Company, 1968. 468 s. ISBN 0-07-050904-2. Practical training: There is no compulsory work placement in the course unit. B-TZB1 C – Building Services 1 Course supervisor: Ing. Taťjana Jánošková, PhD. (031 – Department of Building Services) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: To inform students on the subject of the Technical Equipment of Buildings in the following parts: internal water pipings and fittings, Heating of Water, Domestic Drainage and Drainage Fittings, Domestic Gas Pipings and Fittings, Electrical Equipment of Buildings, their parts, Classification and Description. Students will be tought how to design Installations and Fittings of Technical Equipment of Buildings without Detailed Information. Teaching methods: Solving semester assignments: – Sketches, – Designs, – Drawings. Student will be evaluated by maximum 30 points, which is taken to the exam. Completion requirements: Exam (5 credits) Basic reading list: • HALL, F. Building services and equipment : Volum 3. Harlow: Longman, 1994. 141 s. ISBN 0-582-23139-6.


B-AT C – Design Studio Course supervisor: Ing. arch. Vladimíra Šimkovičová, PhD. (019 – Department of Architecture) Course time allowance: den, 0/3; ext: 0/3 Taught for the form: full-time, attendance method, part-time, attendance method Prerequisite: none Aims and objectives: Get practical experience in the design of a simple architecture – an exhibition pavilion Teaching methods:Abrief outline of the subject: • Enter site, range of the locality, the soil typological preparation • Proposal for a layout diagram, architectural design and layout • Design of bearing system and the design of detention on the disposition • Transversal and longitudinal cross-section of the object • Views • Prospect, axonometria, model Completion requirements: Classified credit (3 credits) Basic reading list: • NEUFERT, E. Bauentwurfslehre. Grundlagen, Normen, Vorschriften uber Anlage, Bau, Gestaltung. Wiesbaden: Braunschweig, 1992. 581 s. ISBN 3-531-58651-6.


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B-CAD C – CAD Course supervisor: prof. RNDr. Radko Mesiar, DrSc. (023 – Department of Mathematics and Constructive Geometry) Course time allowance: 0/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The subject brings the orientation in the modern visualisation methods in computer science, especially in interactive computer graphics by means ofCADcomputational system. Teaching methods: laboratoty work with elaboration of single partial projects Completion requirements: Classified credit (2 credits) Basic reading list: • JAMNICKÝ, M. Počítačová grafika : pre oblast projektovania pozemných stavieb. Bratislava: STU v Bratislave, 2006. 103 s. ISBN 80-227-2346-0. • KALINAY, P. – MINÁR, I. – ŠTEFKO, J. Počítačová grafika pre oblast projektovania pozemných stavieb. Bratislava: STU v Bratislave, 1994. 133 s. ISBN 80-227-0644-2. • ŽÁRA, J. Počítačová grafika : – princípy a algoritmy. Praha: Grada, 1992. 446 s. ISBN 80-85623-00-5.


B-NKK C – Structural Metal Design Course supervisor: prof. Ing. Ivan Baláž, PhD. (021 – Department of Steel and Timber Structures) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: To understand material and design principles of metal (steel and aluminium) structural members and connections Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • BRADFORD, M A. – NETHERCOTGARDNER, D. – TRAHAIR, N S. The behaviour and design of steel structures to EC3. London and New York: Taylor & Francis, 2008. 513 s.


B-PS3 C – Constructions in Architecture 3 Course supervisor: Ing. Andrea Vargová, PhD. (018 – Department of Building Structures) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: To get familiarize with area of the roof building structures. To teach students basic roof structures with a correct design of roof cladding, with a base of building physics and principles of building structures. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • OLÁH, J. – GRANDTNEROVÁ , A. – BACIGÁLOVÁ , J. Konštrukcie pozemných stavieb IV : Zastrešenie. STU v Bratislave, 1993. 345 s. ISBN 8022705543. • OLÁH, J. Konštrukcie plochých striech. Bratislava: Jaga, 1997. 143 s. ISBN 80-967676-3-1. • OLÁH, J. – MIKULÁŠ , M. Krytiny a doplnkové konštrukcie striech. Bratislava: Jaga, 2001. 190 s. ISBN 80-88905-54-0. Recommended reading list: • Fajkoš, A.: Ploché střechy. CERM, Brno, 2002, ISBN 80-2140973-8 • Chudley, L.: Building Construction Handbook. Laxton’s An imprint of Butterworth-Heinemann, Laxton, 1995, ISBN 0 7506 2468 X • Kos, J. – Fajkoš, A. – Zlámal, L. –Štěpánková, P.: Konstrukce pozemních staveb III, Návody pro cvičení. CERM, Brno, 1997, ISBN 80-7204-027-8

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B-TB C – Concrete Technology Course supervisor: prof. Ing. Adolf Bajza, PhD. (027 – Department of Material Engineering) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Students obtain knowledge about properties of components of normal-weight concrete (cements, aggregates, water, admixtures and additives). They will become acquainted with principles of concrete mix design and methods affecting rheological properties of fresh concrete. Great attention is paid to factors affecting properties and durability of hardened concrete (composition, methods of curing, influence of external environmental factors). Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Course description: 1. Classification of concrete 0/0 2. Properties of cement, aggregate, water, admixtures and additives 0/0 3. Concrete mix design 0/0 4. Manufacture and properties of fresh concrete 0/0 5. Curing of concrete at normal and elevated temperatures 0/0 6. Properties and durability of hardened concrete 0/0 Basic reading list: • MINDESS, S. – YOUNG, J. – DARWIN, D. Concrete. Upper Saddle River: Pearson Education Limited, 2003. 11 s. ISBN 0-13-064632-6. • GHOSH, R. – KULKARNI, P. – PHULL , Y. Concrete Technology. New Delhi, India: New Age International (P) Ltd., Publishers, 1998. 340 s. • KERKHOFF, B. – KOSMATKA, S. – PANARESE, W. Design and Control of Concrete Mixtures. Skokie, IL, USA: Portland Cement Association 2008, 2008. 372 s. ISBN 0-89312-217-3. • HEWLETT, P. Lea’s chemistry of cement and concrete. New York: Wiley&Sons, 1998. 1053 s. ISBN 0-470-24416-X. • POPOVICS, S. Concrete – making materials. Washington: Hemisphere Publishing Corporation, 1979. 370 s. ISBN 0-07-050505-5. • NEVILLE, A. Properties of Concrete. Harlow: Longman, 1997. 844 s. ISBN 0-582-23070-5.


B-V C – Water Treatment andWater Supply Course supervisor: prof. Ing. Jozef Kriš, PhD. (029 – Department of Sanitary and Enviromental Engineering) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Acquirement of fundamental knowledge about demand and consumption of drinking and service water – its fluctuation, water supply systems, their design and hydraulic calculation. Basic knowledge about material of water pipes, joints, armatures and buildings on the water supply system. Acquirement of knowledge about accumulation of drinking water, design and construction of water reservoirs, knowledge about water sources, their captation and protection. Acquaintance with water treatment for drinking and service water and design of different technologies and design of facilities for water treatment plants. There will be presented various methods of watertreatment, disinfection of water and basic criteria for maintainance and operation of water supply systems. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • MARTOŇ , J. – ČERMÁK, O. Vodárenstvo. Bratislava: SVŠT v Bratislave, 1991. 188 s. ISBN 80-227-0366-4.

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• MARTOŇ , J. – ČERMÁK, O. Vodárenstvo I. : Návody do cvičenia z vodárenstva 1.,2. Bratislava: SVŠT v Bratislave, 1972. 126 s. • ČERMÁK, O. – MARTOŇ , J. – HÉTHARSŠI, J. Vodárenstvo II. : Úprava pitných a úžitkoých vôd. Bratislava: STU v Bratislave, 1997. 265 s. ISBN 80-227-0931-X.


B-VC C – Road Construction Course supervisor: prof. Ing. Bystrík Bezák, PhD. (012 – Department of Transport Construction and Traffic) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Learn how to build roads, highways, local and urban roads, to show properties of building materials and technological processes in the construction of roads construction, the design blends in the construction of roads Teaching methods: excercises, lectures Completion requirements: Exam (5 credits) Course description: 1. lectures 26/0 1.1 Introduction, terminology, categories of roads 1.2 Soil properties and processes in earth works 1.3 Road construction materials, their properties, testing 1.4 Pavement design principles 1.5 Production and processing of mixtures for road 1.6 Re-use of road building materials 2. excercises 0/26 2.1 road cross-section design 2.2 evaluation of road construction materials 2.3 structural design of road Basic reading list: • GSCHWENDT, I. Vozovky : Konštrukcie a ich dimenzovanie. Bratislava: Jaga, 1999. 155 s. ISBN 80-88905-14-1. • GSCHWENDT, I. – KOL. Vozovky : Materiály a technológie. Bratislava: Jaga, 2001. 207 s. ISBN 80-88905-52-4. Practical training: There is no compulsory work placement in the course unit. B-ZP C – Bc. Thesis Course supervisor: prof. Ing. Andrej Šoltész, PhD. (017 – Department of Hydraulic Engineering) Course time allowance: 0/9 Taught for the form: full-time, attendance method Prerequisite: none Completion requirements: Classified credit (10 credits) Practical training: There is no compulsory work placement in the course unit. B-SCOV C – Sewarage andWaste Water Treatment Course supervisor: doc. Ing. Štefan Stanko, PhD. (029 – Department of Sanitary and Enviromental Engineering) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: To gain: The ability of decision making and objective evaluation of data needed for concept design of urban sewer systems. Overview of materials and construction designs used on various sewer system objects. The ability to design and evaluate projects in line with modern

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engineering techniques: – sewer systems and draining of sewage and rain water – waste water treatment and sludge processing Completion requirements: Exam (5 credits) Basic reading list: • Stokovanie a čistenie odpadových vôd : Časť1. Stokovanie. Bratislava: STU v Bratislave, 1991. 321 s. ISBN 80-227-0403-2. • URCIKÁN, P. – RUSNÁK, D. Stokovanie a čistenie odpadových vôd : Stokovanie I. Navrhovanie stokových sietí . Bratislava: STU v Bratislave, 2004. 324 s. ISBN 80-227-2136-0. • URCIKÁN, P. – IMRIŠKA, L. Stokovanie a čistenie odpadových vôd : Tabuľky na výpočet stôk . Bratislava: Alfa, 1986. 237 s. • MARTOŇ , J. – HYÁNEK , Ľ. – TOLGYESSY, J. Získavanie, úprava, čistenie a ochrana vôd. Bratislava: Vyd. ALFA, 1991. Practical training: There is no compulsory work placement in the course unit. B-TZB2 C – Building Services 2 Course supervisor: prof. Ing. Dušan Petráš, PhD. (031 – Department of Building Services) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Creation of hygienic and thermo-humid condition in buildings. The aim of the subject is to learn basic knowledge of physical parameter of wet air and the work done during its conditioning. At the same time the student learns technical solutions for air conditioning systems and their installation in buildings. The focus is paid to protection of environment and energy reduction. Teaching methods: lectures, exercise Completion requirements: Exam (5 credits) Basic reading list: • TAKÁCS, J. – MACKO, P. – PETRÁŠ , D. Technické zariadenia budov II. : Vykurovanie budov,cvičenie a ateliérová tvorba. Bratislava: SVŠT v Bratislave, 1987. 258 s. • SZÉKYOVÁ , M. Vzduchotechnika. In VALÁŠEK, J. – FURI, B. – GAŠPAROVSKÝ, D. – KALÚS, D. – LULKOVIČOVÁ , O. – SZÉKYOVÁ , M. – HAVELSKÝ, V. – TAKÁCS, J. – NAGY, J. Technické zariadenia budov.Stavebno-technické zásady pre navrhovanie,posudzovanie a realizáciu vnútorných rozvodov a ich zariaďovacích predmetov : Stav – október 2008. s. 40. Practical training: There is no compulsory work placement in the course unit. B-TV C – Building Technology Course supervisor: prof. Ing. Jozef Gašparík, PhD. (028 – Department of Building Technology) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: Basic knowledge of building processes technology, establishment of production lines, knowledge of pre-construction design and on site performance, planning methods, network analysis, quality management systems. Completion requirements: Exam (5 credits)


B-TN C – Real Estate Market Course supervisor: prof. Ing. Koloman Ivanička, PhD. (932 – Institute of Management of the STU) Course time allowance: 2/2 Taught for the form: full-time, attendance method Prerequisite: none Aims and objectives: The subject provides information and knowledge of the real estate market, which depends on the state level of construction activity. Students understand the functioning of the real estate market, recognizes the individual factors and risks affecting the real estate market. These findings

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improve the knowledge base of a student who is required to work in real estate investor organizations, banks, developers and the state administration. Teaching methods: Lectures, exercises, project Completion requirements: Exam (5 credits) Course description: 1. • Introduction to Real Estate – the real estate business (services provided by the real estate industry) • Classes and Characteristics of Real Estate (physical and economic characteristics) • The Real Estate Market, characteristics of the real estate market, factors affecting the supply of real estate and the demand for real estate • Real Estate Concepts – basic concepts and background of real estate law, basic legal concepts, real and personal property, fixture versus trade fixture, tests of a fixture • Real Estate Ownership • Real Estate Space and Asset Markets, Real Estate System: Four-Quadrant Model Real Estate Market Cycles. • Real Estate Market Analysis – Purpose of Market Analysis, Uses Market Analysis. • Risk Management in Real Estate Investment • International Real Estate Investment: Markets, Strategies, and Implementation. • Real Estate Finance – an overview, finance theory, real estate investment trusts. 26/26 Basic reading list: • IVANIČKA, K. Trh nehnutel’ností a developérsky proces. Bratislava: STU, 2008. ISBN 978-80-227-2661-0. • ADAMUŠČIN, A. – ĎURIŠOVÁ , J. Trh kancelárskych priestorov – teória a prax. Bratislava: Devin printing house, 2011. 230 s. ISBN 978-80-89493-07-4. Recommended reading list: • Adrienne Schmitz, Deborah L. Brett (2002) Real Estate Market Analysis: A Case Study Approach, ULI-the Urban Land Institute, Washington, ISBN 0-87420-868-8 • Cortesi, R. G. (2001): Mastering Real Estate Principles, Dearborn Financial Publishing, Chicago, ISBN 0-7931-8766-4 • DiPasquale: , D. –Wheaton, W.C. (1996) : Urban Economics and Real Estate. Prentice hall, Englewood Cliffs, NJ. • Charles F. Floyd,Marcus T. Allen (2002): Real Estate Principles, Seventh Edition, Published by DeabornTM Real estate Education, Chicago, ISBN 0-7931-4183-4 • Miles, E.-Berens, G. – Weiss, M. (2000): Real Estate Development. Principles and process. Urban land Institute. Washington. • Wade E. Gaddy,Robert E. Hart,Judy Wolk (2003): Real Estate Fundamentals, Sixth Edition, Published by DeabornTM Real estate Education, ISBN 0-7931-6471-0


Bratislava, August 07, 2013

prof. Ing. Alojz Kopáčik, PhD.

dean

Documents

Syllabus Civil Engineering I