ECTS
ECTS Course Catalogue

Course details
Course code: IBN10133o15
Semester: 2015/2016 summer
Name: Theoretical mechanics
Major: Civil Engineering
Study Type: first cycle
Course type: compulsory
Study Semester: 2
ECTS points: 6
Hours (Lectures / Tutorials / Other): 18 / 18 / 0
Lecturer: dr inż. Wacław Zakrzewski
Language of instruction: Polish


Learning outcomes: Student knows basic arrangements of forces and their possible transformations; understands rules of construction of static schemes and principles of load assignement; knows equilibrium conditions of flat and spatial force systems; knows methods of determination of inner forces in flat girders like grids, singel-span and multi-span beams and frames. Student is acknowledged of the friction phenomena. Skills Student is able to determine static schemes of given structures; can identify statically determinable and overrigid structures; is able to build equations of equilibrium; can determine reactions and cross-section forces in beam, frame and grid structures.

Competences: Student is aware of the importance of proper structural calculations for safety of their exploitation. Student understands his personal responsibility for accuracy of calculations and its consequences.

Prerequisites: Mathematics, physics.

Course content: Models of body in mechanics. Force. Static force moment in relation to pole and axis. Pair of forces. Work. Free and bounded bodies. Levels of . Transformation of force arrangements. Static schemes of elements of construction. Determining of interactions. Internal forces: axial, cutting, bending and rotating moment. Reduction of systems of forces: Scalar invariant, zero system, couple, Central axis, general reduction of a system of forces. Differential relationships between internal forces. Determination of internal forces and their graphs in beams, static determinant frames and three-joints. Solving grid systems.

Recommended literature:  Kempiński J., Zakrzewski W.: Mechanika Budowli. Wyd. A R. we Wrocławiu, 2001.  Leyko J.: Mechanika ogólna, t. 1, Statyka i kinematyka. PWN, Warszawa 1996.  Misiak J.: Mechanika techniczna, t. 1, Statyka i wytrzymałość materiałów, WN-T, Warszawa 1996.  Pac-Pomarnacka A.: Mechanika ogólna z przykładami obliczeń. Wyd. AR we Wrocławiu, 2004.  Chrobok R., Kempiński J. Przykłady rozwiązań izostatycznych ustrojów prętowych metodą statyczną i kinematyczną. Skrypt Uniwersytetu Przyrodniczego we Wrocławiu, nr 518, 1-102, Wrocław 2007.  Halliday D., Resnick R., Walker J. Podstawy fizyki. Tom 1. Wyd. Naukowe PWN, Warszawa, 2005.  Rubinowicz W., Królikowski W. Mechanika teoretyczna. PWN, Warszawa, 1967.

Assessment methods: Completion of two projects, 4 colloquia, written exam.

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