ECTS Course Catalogue
Course details
Course code:
ICSS10020o15Semester:
2015/2016 winterName:
Mechanics and Strength of MaterialsMajor:
Safety EngineeringStudy Type:
first cycleCourse type:
compulsoryStudy Semester:
3ECTS points:
5Hours (Lectures / Tutorials / Other):
30 / 30 / 0Lecturer:
prof. dr hab. inż. Jan KempińskiLanguage of instruction:
PolishLearning outcomes:
Knowledge
He knows the conditions of equilibrium flat and spatial systems of forces, he knows how to troubleshoot (determining reaction forces supporting and cross) flat girder truss rod like, multi-span beams and simple framework is able to determine the characteristics of the geometric cross-section beams, a knowledge of the state of tension and strain in the girders compression and tension, shear, torsion and bending. He knows the method of determining the displacement rod systems.
Skills
After completing the course the student is able to choose the static scheme for the designed structure, identify the characteristics of geometric cross-section, determine the reactions supporting and cutting forces (internal) as well as axial and lateral torsional and bending moments, he can determine the state of tension (normal and tangential stress) and deformation rod systems, such beams can design as columns, beams one and multi-span, trusses and frames subjected to compression and tension, torsion and bending.
Social competence (attitudes)
Has a rational understanding of structural design.
Competences:
Prerequisites:
completed courses in mathematics and physics Course content:
Principles of statics, force, torque relative to the static force and the axis, connections, and support (supporting bonds), power systems, reducing system power. Terms equilibrium of forces plane and space. Solving rod systems as trusses, beams, frames. Simple cases of strength as compressive and tensile, shear, torsion, bending straight and oblique, eccentric compression. Determination of displacements in flat rod systems.Recommended literature:
.Kempiński J., Zakrzewski W., Mechanika Budowli, Wyd. AR Wrocław, 1992 i 2001.
2. Cybulski A., Statyka ustrojów prętowych, Tom I, Wyd. Politechniki Wrocławskiej, 1973.
3. Chrobok R., Zbiór zadań z podstawy statyka budowli, DWE, Wrocław, 1999.
4. Klasztorny M., Mechanika. Statyka-Kinematyka-Dynamika, Dolnośląskie Wydawnictwo Edukacyjne, 2000
4. Jastrzębski P., Mutermilch J., Orłowski W., Wytrzymałość Materiałów, Arkady, Warszawa,
1974.
5. Jokil M., Statyka i wytrzymałość materiałów, Cz. I i II, Wyd. Politechniki Wrocławskiej,
1991.
6, Gawęcki A.: Mechanika materiałów i konstrukcji prętowych. Wyd. Pol. Poznańskiej,
Poznań 1998.
7. Dyląg Z., Jakubowicz A., Orłoś Z.: Wytrzymałość materiałów. WNT, Warszawa 1996
8. Palczak G.A.: Wytrzymałość materiałów, ćwiczenia. Część I i II. Wyd. Pol.Assessment methods:
completion of 3 projects, 3 tests, written examComment: