SMC_1a Mechanics in Civil Engineering I
Institute of Technology and Business in České Budějovicesummer 2018
- Extent and Intensity
- 2/2/0. 5 credit(s). Type of Completion: zk (examination).
- Teacher(s)
- prof. Ing. Sergii Kuznetsov, DrSc. (seminar tutor)
Ing. Luděk Mlnařík (seminar tutor)
Ing. Josef Musílek, Ph.D. (seminar tutor)
Ing. Jan Prem (seminar tutor) - Guaranteed by
- Ing. Josef Musílek, Ph.D.
Department of Civil Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice
Supplier department: Department of Civil Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice - Timetable of Seminar Groups
- SMC_1a/P01: Tue 11:25–12:55 B2, S. Kuznetsov
SMC_1a/Q3: Sun 18. 2. 8:00–9:30 B3, 9:40–11:10 B3, 11:25–12:55 B3, 13:05–14:35 B3, Sat 3. 3. 8:00–9:30 B3, 9:40–11:10 B3, 11:25–12:55 B3, Sun 15. 4. 8:00–9:30 B3, 9:40–11:10 B3, 11:25–12:55 B3, J. Prem
SMC_1a/S01: Tue 14:50–16:20 B5, J. Musílek
SMC_1a/S02: Tue 16:30–18:00 B5, J. Musílek
SMC_1a/S03: Wed 13:05–14:35 D415, L. Mlnařík
SMC_1a/S04: Thu 8:00–9:30 B4, L. Mlnařík - Prerequisites (in Czech)
- MAX_KOMBINOVANYCH(90) && MAX_PREZENCNICH(100)
- Course Enrolment Limitations
- The course is offered to students of any study field.
The capacity limit for the course is 190 student(s).
Current registration and enrolment status: enrolled: 0/190, only registered: 0/190 - Course objectives supported by learning outcomes
- Students will learn types of load structures, and will know when to apply them. S/he will learn the problems of the dynamic behavior of structures. After successful completion of the course the student is able to: - calculate the cross section center of gravity and determine the ellipse of inertia, and degrees of width to determine the static structure certainty - to determine response of beams and compute their size - to calculate the axial forces in the rods of a statically truss - to determine the internal forces in statically determinate full beams (console, a simple beam, angle beam, refracted beam, slab and wall) - statically determine the action of certain complex structures (triple articulation arch, gerber`s beam) - to explain the behavior of statically indefinite structures and s/he will theoretically know the ways of their calculation. Based on the information and skills s/he will be able to decide on the choice of a supporting structure
- Learning outcomes
- Upon successful completion of the course the student can: - calculate the center of gravity of the cross-section and determine the ellipse of inertia, determine degrees of freedom and static design - determine the reaction of beams and calculate their size - calculate the axial forces in the static fixed trusses - determine the course of internal forces on statically certain solid beams (bracket, plain beam, inclined beam, beam, slab and wall) - determine the effects of more complex statically certain structures (triangular arc and gerber beam) - to explain the behavior of statically indeterminate constructions and will know in theory the ways of their calculation. Based on the information and skills acquired, he / she will be able to decide on the choice and support of the load-bearing structure.
- Syllabus
- Topics: 1. Physical quantities, scalars, vectors, physical size, strength as a vector, folding and unfolding forces 2. Torque to point and axis, a pair of static torque forces. The general spatial system of forces, the resulting effect, balance, equity 3. Degrees of width of a particle, board, body systems, static precision 4. Continuous load, strength, lonely moment and continuous torque load 5. Supporting and response of a particle, boards and bodies, supporting noncorect cases 6. Loads of building structures 7. Lattice structure, methods of calculation 8. Simple beam and bracket types of loads, calculation of reactions, internal forces 9. Refracted beam, internal forces 10. Kinematic method of calculating the response of complex systems 11. The center of gravity and moments of inertia of the cross-section 12. Fundamentals of dynamics of structures 13.The principles of solving statically inexplicit structures
- Literature
- required literature
- VONDROVÁ, R. Statika I příklady. Praha : ČVUT, ISBN 978-80-01-02949-7.
- Novotný Vybrané kapitoly ze stavební mechaniky VŠTE ČB, předpokládané vydání 2009.
- MUK, J. Statika II . 5. vydání. Praha : ČVUT, 2007. ISBN 978-80-01-03694-5.
- MUK, J. Statika I. 2. vydání. Praha : ČVUT, 2007. ISBN 978-80-01-03695-2.
- recommended literature
- KUFNER V., KUKLÍK P. Stavební mechanika 10. 2. vydání. Praha: ČVUT, 2004, ISBN 80-01-02215-3.
- ŽÁK, J., PĚNČÍK, J. Stavební mechanika: statika, pružnost a pevnost. Praha : Antikva, 2005, ISBN 80-239-4965-9.
- PETRTÝL, M., LIPANSKÁ, E. Stavební mechanika I – Mechanika tuhých a poddajných těles v příkladech. Praha : ČVUT, 1999. ISBN 80-01-01687-0.
- KUFNER V., KUKLÍK P. Stavební mechanika 20. 2.vydání. Praha: ČVUT, 2003. ISBN 80-01-02346-X.
- Forms of Teaching
- Lecture
Exercise - Teaching Methods
- Frontal Teaching
Individual Work– Individual or Individualized Activity
- Student Workload
Activities Number of Hours of Study Workload Daily Study Combined Study Preparation for Seminars, Exercises, Tutorial 40 78 Preparation for the Final Test 38 38 Attendance on Lectures 26 Attendance on Seminars/Exercises/Tutorial/Excursion 26 14 Total: 130 130 - Assessment Methods and Assesment Rate
- Exam – written 70 %
Test – mid-term 30 % - Exam conditions
- Celková klasifikace předmětu je následovná: A 100 – 90, B 89,99 – 84, C 83,99 – 77, D 76,99 – 73, E 72,99 – 70, FX 69,99 – 30, F 29,99 - 0.
- Language of instruction
- Czech
- Further comments (probably available only in Czech)
- The course is taught annually.
- Enrolment Statistics (summer 2018, recent)
- Permalink: https://is.vstecb.cz/course/vste/summer2018/SMC_1a