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Lecturer(s)
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Patrman Martin, Ing.
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Bureš Vladislav, Ing. Ph.D.
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Course content
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Topics of lectures and exercises: 1. Introduction to the subject, basic concepts - force, load, computational model, axioms of statics 2. Force systems in a plane - bundle of forces 3. Force systems in a plane - moment of force, couple of forces, general system of forces in a plane 4. Statically determinate member structures in a plane - supports of the structure, static determinism 5. Statically determinate member structures in a plane - equilibrium conditions, calculation of reactions 6. Statically determinate member structures in a plane - types of members stressing, determination of internal force 7. Statically determinate member structures in a plane - relationships between internal forces, Schwedler's theorem 8. Statically determinate member structures in a plane - calculations of internal forces, examples 1 9. Statically determinate member structures in a plane - calculations of internal forces, examples 2 10. Statically determinate truss structures in the plane - static determinism, calculation of reactions 11. Statically determinate truss structures in the plane - simplified method of joints 12. Statically determinate truss structures in the plane - method of sections 13. Statically determinate truss structures in the plane - tension, compression and zero members, examples 14. Revision of the study and consultations
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Learning activities and teaching methods
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Monological explanation (lecture, presentation,briefing), Dialogue metods(conversation,discussion,brainstorming), Self-study (text study, reading, problematic tasks, practical tasks, experiments, research, written assignments), Lecture, Practicum
- Class attendance
- 42 hours per semester
- Preparation for credit
- 42 hours per semester
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Learning outcomes
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The aim of the course is to familiarize students with the basics of structural mechanics and statics of building structures in the scope of statically determinate plane building structures. In the winter semester, operations with forces in the plane and the course of static quantities in solid and truss beams will be discussed.
1. Student is able to independently apply the principles of statics in solving architectural structures. 2. Student applies a systematic and analytical approach in assessing the mechanical properties of building elements. 3. Student is able to critically evaluate the results of calculations and estimate the possible consequences of the static properties of the structure. 4. Student communicates technical conclusions clearly and can present them in a professional context.
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Prerequisites
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Unspecified
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Assessment methods and criteria
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Test
Participation in lectures and exercises at least 75% Elaboration of the given examples
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Recommended literature
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Kalendowicz, T. Stavební mechanika pro architekty. Praha: SNTL, 1984.
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Muk, J. Statika 1. Praha, 2007.
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Muk, J. Základy statiky. Vydavatelství ČVUT, 1994.
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Petříčková, M. Konstrukce v architektuře. Brno, 2012.
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Salvadori, M., Levy, M. Structural design in archtecture. Prentise-Hall. Eaglewood Cliffs: N.Y., 1981.
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