## Mechanics of Building Structures IIBack JP / EN

Numbering Code Year/Term U-ENG24 24012 LJ74 2021 ・ Second semester 2 Lecture Japanese Fri.1 TAKEWAKI IZURU (Graduate School of Engineering Professor)HAYASHI YASUHIRO (Graduate School of Engineering Professor)KOHEI FUJITA (Graduate School of Engineering Associate Professor) Axial deformation of a bar and bending deformation of a beam. Statically determinate truss and moment-resisting frame. Theory of statically indeterminate beams and buckling of columns. The force method and the displacement method (stiffness method) are described in the theory of statically indeterminate beams. Exercises are given for each subject. Study analysis method of bending deformation of beams and theory of statically indeterminate beams. In addition study the theory of statically determinate truss and moment-resisting frame and the theory of buckling of columns. Axial deformation of a bar and bending deformation of a beam,1 class, Differential equation for deflection curve of a beam and Mohr's theorem for deflection analysis. Theory of statically indeterminate beams 1, 3 classes, Force method in terms of unknown stress resultants and reactions. Theory of statically indeterminate beams 2, 3 classes, Displacement method in terms of unknown displacements. Statically determinate truss and frame, 4 classes, Analysis of stress resultants in statically determinate trusses and moment-resisting frames. Buckling of column, 3 classes, Governing equation for a buckling problem of a column. Eigenvalue analysis. Slope-deflection method for buckling analysis. Feedback using term exam, 1 class, Conduct feedback using term exam through KULASIS Term examination None Solve the exercise problems at the end of chapters of the text. T.Nakamura (ed.);Mechanics of building structures I: Illustrative description and exercises; Maruzen. isbn{4621039652} 分類：A course with practical content delivered by instructors with practical work experience