Curricula

Objectives

Object of the course:
The knowledge and skills you get on this course you will need in order to be able to determine the stresses affecting in the structures and to be able to dimension the structure for different materials.
Course competences:
- Mathematic and Natural science competence
- Technological competence
The learning objectives of the course:
You can tell about the dependence between tension and deformation. You know how to determine the stresses and tensions in the structures, and you know how to dimension the structures for shear, compression, tension and bending. You know how to determine the buckling load and also the allowable load for the compressed slender rod. You know when combinations of tension occur in the structure and you know how to perform a review of it. In addition to the basic tasks of the course outlined above, you are able to determine the support reactions, internal forces and the stress concentrations of simply hyperstatic structures.

Content

Determination of stresses, Determination of deflections and displacements with formulas, Buckling, rotative and denting buckling, Basics of combined stress, Basics for dimensioning of components, simply hyperstatic structures, Deflections (analytically), vibration of the wooden floor structure.

Time and location

Contact lessons according to Time Table.

Learning materials and recommended literature

Moodle verkkoympäristöstä löytyy tarvittava.
Vapaaehtoinen kirja: Lujuusoppi : peruskurssi - Saarineva, Jarmo

Teaching methods

On this course will be used following teaching methods:
- Lectures face-to-face
- Learning assignments,

Practical training and working life connections

None

Exam dates and retake possibilities

Timing of Exams and re-Exams will be agreed on the first contact lesson of the course.

Alternative completion methods

Studification or Accreditation : See Jamk / Peppi Instructions.

Student workload

One credit point means an average of 27 hours of work. The load is distributed in different ways depending on the way the course is implemented.
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In this study period, time use and workload is distributed as follows:
Total load: 130 h
Contact lectures: 46 h
Interactive video lectures: 0 h
Homework that supports learning: 83 h
Assessment of own competence/peer assessment: 1 h

Content scheduling

Opintojakso kestää syksyn ja kevään.

Further information for students

Grading methods
- Test
- Self Grading

The Grading is high-quality and it is based on the learning objectives and criterion of the course.
Self Grading has an important role in Student's Grading.

See also Grading

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Passable (1): The student recognizes all of the learning objectives, understands the meaning of them and is able to perform the basic tasks described in the learning objectives of the course.

Satisfying (2): In addition to previous skills, the student can systematically describe the issues of the course.

Evaluation criteria, good (3-4)

Good (3): In addition to previous skills, the student can describe the influences of various solutions and can make reasoned choices between alternatives.

Laudable (4): In addition to previous skills, the student can apply the learned issues independently and is able to evaluate done solutions.

Evaluation criteria, excellent (5)

Excellent ( 5 ): In addition to previous skills, the student shows deep knowledge of course contents as well as ability to parse and wider analyze the influences of solutions.

Prerequisites

Statics / Support Reactions and internal Forces

Further information

Studification:
The Student has to show that he masters the learning objectives of the course with proof, such as f.eg. certificate of earlier degrees, documents made in working life and performances supplemented with statements.

Qualifications:
The course is part of studies that belong to qualifications of civil engineer (Ministry of the Environment guidelines on the difficulty classes of design tasks YM1/601/2015)
The studies follow guidelines of curriculum performed in cooperation with Universities of applied sciences and construction industry in 2017.