# Structural Analysis I

 Title ΕΦΑΡΜΟΣΜΕΝΗ ΣΤΑΤΙΚΗ ΙΣΟΣΤΑΤΙΚΩΝ ΦΟΡΕΩΝ / Structural Analysis I Code ΤΕ0600 Faculty Engineering School Civil Engineering Cycle / Level 1st / Undergraduate Teaching Period Spring Common Yes Status Active Course ID 20000160

### Programme of Study: PPS TMĪMATOS POLITIKŌN MĪCΗANIKŌN (2018-2019)

Registered students: 618
OrientationAttendance TypeSemesterYearECTS
Core program for all studentsCompulsory Course426

 Academic Year 2018 – 2019 Class Period Spring Faculty Instructors Instructors from Other Categories Weekly Hours 5 Class ID 600118998
SectionInstructors
1. ΤΕ0600Konstantinos Kostinakis, Georgios Stefanou, Vasiliki Terzi

### Class Schedule

 Building Πολυτεχνείο - πτέρυγα Β (Πολιτικών Μηχ.) Floor Υπόγειο 1 Hall ΑΙΘΟΥΣΑ 5.15 (222) Calendar Τρίτη 10:00 έως 13:00 Building Πολυτεχνείο - πτέρυγα Β (Πολιτικών Μηχ.) Floor Υπόγειο 1 Hall ΑΙΘΟΥΣΑ 5.15 (222) Calendar Παρασκευή 12:00 έως 15:00
Type of the Course
• Scientific Area
• Skills Development
Course Category
Specific Foundation / Core
Mode of Delivery
• Face to face
Erasmus
The course is also offered to exchange programme students.
Language of Instruction
• Greek (Instruction, Examination)
• English (Examination)
Prerequisites
General Prerequisites
General Competences
• Apply knowledge in practice
• Work autonomously
Course Content (Syllabus)
- Simple statically determinate structures. - Calculation of reactions at the supports and of the internal stress-resultants of simple statically determinate structures using the method of sections and the conditions of equilibrium. - Differential equation of bending. - Properties of the axial, shear force and bending moment diagrams (N, Q, M). - Exploiting symmetry. - Simple examples (simply supported, cantilever beams). - Complex statically determinate structures (Gerber beams, three-hinge frames, reinforced beams), Calculation of N, Q, M diagrams. - Statically determinate trusses, Calculation of axial forces using nodal equilibrium and Ritter sections. - Constitutive (stress-strain) laws of linear structural elements. - Principle of virtual work. - Calculation of displacements at discrete points of a structure under loading conditions that include external loading as well as external and internal constraints. - Determination of the deflected shape of structural elements and structural assemblies. - The Mohr principle. - Influence lines. - Betti’s theorem and the 3 reciprocity proposals. - Calculation of influence lines of reactions and stress-resultants using the conditions of equilibrium and the principle of virtual work. - 3-D statically determinate structures.
Keywords
Structural Analysis, Statically determinate structures, Support reactions, internal stresses and displacements, Influence lines
Educational Material Types
• Book
Course Organization