The course aims to provide the basis to learning structural mechanics, through the basic knowledge of kinematics, dynamics and statics of rigid bodies. |
In order to successfully attend the course in statics and dynamics of mechanical systems it is necessary to passing exams Calculus and Linear Algebra and Physics. It is also the frequency required (although it is advisable to pass the exam) of course named Mathematical Methods for engineering. |
Knowing the theory of vectors and the problems related to forces and loads applied; recognize isostatic structures, statically determinate and indeterminate structures; manage problems of systems composed of several trunks. Being able to draw diagrams of stress characteristics.. |
The course is divided into the following topics: 1. vector calculus 2. Kinematics of rigid motions and constrained systems 3. Elements of dynamics 4. Geometry of the areas 5. Elements of static and dynamic structures |
The text D'Anna Renno is no longer in print. We then proceeded to publish the following text of the course, which is then required to pass the exam C. Cennamo. B. Chiaia, L. Placidi (Instructors), Statica e Dinamica dei Sistemi Meccanici. Mc Graw Hill Create. The text is available for purchase through the website http://www.uninettunouniversity.net/portal/it/ebookstore.aspx Below there is a list of references: A. D’Anna, P. Renno, Elementi di meccanica razionale. Vol. I e II. EDIZIONI CUEN C. Cennamo. B. Chiaia, L. Placidi (Instructors), Statica e Dinamica dei Sistemi Meccanici. Mc Graw Hill Create. F. dell’Isola, L. Placidi, Esercizi e complementi di Scienza delle costruzioni. Vol.I. Matrici cinematiche e strutture isostatiche. Società editrice Esculapio, 2012. E. Viola, Esercitazioni di Scienza delle costruzioni. Vol.I. Strutture isostatiche e Geometria delle masse. |
Classification of structures. Calculation of isostatic structures, calculation of the static moments and of the moments of inertia for two-dimensional figures. |
Professor/Tutor responsible for teaching
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