| Course title | Building mechanics |
|---|---|
| Course code | KDS/SME |
| Organizational form of instruction | no contact |
| Level of course | Bachelor |
| Year of study | not specified |
| Semester | Summer |
| Number of ECTS credits | 0 |
| Language of instruction | Czech |
| Status of course | Compulsory-optional |
| Form of instruction | Face-to-face |
| Work placements | This is not an internship |
| Recommended optional programme components | None |
| Lecturer(s) |
|---|
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| Course content |
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- General planar force system and its application in the static calculations - Moments of inertia, products of inertia, the main ellipse of inertia, radius of inertia - Stability, center of gravity of plane figures - The simple beam loaded forces; continuous load triangular, trapezoidal, torque impulses (calculate reaction shear forces and moments: graphically, numerically) - A single beam with overhangs, graphically and numerically to determine the response to shear forces and moments - Beam console - storage and administration of these beams, calculating shear forces and moments - Complete the calculation of internal forces in the oblique beam; graphical and numerical solution - Continuous beams with embedded joints; calculation of moments and shear forces (graphic) - Beams Statically broken; complete examination during shear forces and moments, axial forces, graphical representation of these variables - Frames and arches of three joints; course moments of shear forces and normal forces - Solution of truss structures by nodal points, the method of sections and graphical pattern Cremonovým - Statically determinate beams: solution of deflection and rotations by differential and Moohrovou. - Derivation of equation for beams Třímomentové permanent section - Influence lines of statically determinate beams, including trojkloubového arc with evaluation of moments and shear forces - Calculation of influence lines continuous beams using Třímomentové sentences shapes influence lines - Frame statically indeterminate structures (solution deformation method) - Relations load - deflection and their use in structural mechanics - Moving load with a statically indeterminate beam (criterion Hoist, and Vinklerová Šolinovo, application example)
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| Learning activities and teaching methods |
| unspecified |
| Learning outcomes |
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The state final exam.
The state final exam. |
| Prerequisites |
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The state final exam.
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| Assessment methods and criteria |
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unspecified
The state final exam. |
| Recommended literature |
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| Study plans that include the course |
| Faculty | Study plan (Version) | Category of Branch/Specialization | Recommended semester | |
|---|---|---|---|---|
| Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Structures (2014) | Category: Construction industry, geodesy and cartography | 4 | Recommended year of study:4, Recommended semester: Summer |
| Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Structures (2016) | Category: Construction industry, geodesy and cartography | 4 | Recommended year of study:4, Recommended semester: Summer |
| Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Structures (2016) | Category: Construction industry, geodesy and cartography | 4 | Recommended year of study:4, Recommended semester: Summer |
| Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Structures (2013) | Category: Construction industry, geodesy and cartography | 4 | Recommended year of study:4, Recommended semester: Summer |
| Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Structures (2013) | Category: Construction industry, geodesy and cartography | 4 | Recommended year of study:4, Recommended semester: Summer |
| Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Structures (2014) | Category: Construction industry, geodesy and cartography | 4 | Recommended year of study:4, Recommended semester: Summer |