Civil and Structural Engineering, Bachelor's Programme
Renewable Energy, Bachelor's Programme
Mechatronics, Bachelor's Programme
Language of instruction
Norwegian
Recommended prerequisites
MA-178 Mathematics I or similar
Learning outcomes
After completing the course, the student shall:
Obtain theoretical basis needed for design of building structures with regard to the loadbearing capacity
Know the difference between statically determined and statically indeterminate structure
Be able to use equilibrium equations to calculate the reaction forces in statically determined structures: beams, 2D-trusses and frames
Understand the difference in behavior of bar/rod elements and beam elements.
Be able to construct internal force diagrams i.e. bending moment diagram, shear force diagram and axial force diagram
Know how to calculate the centroid and other relevant parameters of beam cross-section
Be able to calculate the normal stresses and strains caused by combined action of axial force and bending moment
Be familiar with the Euler-Bernoulli beam equation and be able to use it to calculate deflections
Obtain knowledge about Euler buckling
Course contents
Static equilibrium. Statically determined structures: beams, frames and trusses. Internal forces: axial force, shear force and bending moment diagrams. Introduction to strength of materials: mechanical stresses, strains and elasticity. Euler-Bernoulli beam theory, bending stresses and beam equation. Euler’s buckling.
Teaching methods
Lectures and exercises
Examination requirements
Students must pass the compulsory assignments in order to take the examination.
Assessment methods and criteria
Individual written exam 4 hours, graded assessment.
Evaluation
The person responsible for the course decides, in cooperation with student representative, the form of student evaluation and whether the course is to have a midway or end of course evaluation in accordance with the quality system for education, chapter 4.1.”
Offered as Single Standing Module
Yes. Subject to availability or capacity.
Admission Requirement if given as Single Standing Module
Higher Education Entrance Qualification including mathematics R1 and R2 and physics 1, or a pass in the preliminary course examination for engineers (which is also offered at University of Agder).