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Kinematics of rigid systems: generalized displacement; kinematic definition of constraints (internal and external); algebraic study of Kinematics of rigid systems. Statics of rigid systems: static definition of constraints (internal and external); cardinal equations of statics; static-kinematic duality; determination of constraint reactions; classification of systems of beams; line pressure; indefinite equations of equilibrium for plane beams; internal beam reactions and diagrams of characteristics of internal reactions; statically determinate systems of beams and trusses. Displacement method: formulation; application to statically determinate and indeterminate systems of beams. Force method: method of consistent deformations; applications to systems of beams. Behav-ior of materials used in construction: the case reinforced concrete, steel and masonry. Analysis of the tension in a continuous three-dimensional medium: the concept of stress according to Cauchy; Cauchy’s theorem and stress tensor; principal stresses and stress invariant; Mohr's circles; equilibrium equations. Analysis of the strain in a continuous three dimensional medium; tensor of strains; principal strains; compatibility equations; distortions. Theorem of virtual work and the general formula of displacement. Linear elastic homogeneous isotropic material: Hooke’s law. Analysis of stresses and strains of a beam: Saint Venant problem: normal and eccentric force; torsion; bending and shear. Criteria of resistance. Stability of elastic equilibrium: the limits of validity of Euler's formula, the omega method. More details can be found in: www.pcasini.it/disg/sdc

Prerequisites: thorough knowledge of the topics covered in basic courses in Mathematics, Physics and Geometry.

Paolo Casini, Marcello Vasta. Scienza delle Costruzioni (quarta edizione), DeAgostini Scuola-CittàStudi ed., ISBN 9788825174274 (2019) Additional information and teaching materials can be found at: www.pcasini.it/disg/sdc

Class attendance is not mandatory but strongly recommended.

The learning process is verified during the course through exercises and written tests.

Frontal lessons and in-class exercises. Learning assessments with exercises on Classroom, corrected in person. Videos regarding lessons and exercises available on the website www.pcasini.it/disg/statica under the 'video' section.