course-details-portlet

TKT4116

Mechanics 1

Credits 7.5
Level Foundation courses, level I
Course start Spring 2016
Duration 1 semester
Language of instruction Norwegian
Examination arrangement Written examination

About

About the course

Course content

Statically determinate structures: Beams, plane trusses and frames. Axial force, shear force and bending moment distribution in structures. Introduction to mechanics of materials: Stress, strain and elasticity. Linear theory for beams: Bending stresses, differential equation for deformation of beams.

Learning outcome

The two basic courses Mechanics 1 and Mechanics 2 will give the students basic knowledge about statics and mechanics of materials. Mechanics 1 is mandatory for the following programs of study: MTBYGG, MTING, MTMART, MTMT, MTPROD and MTIØT with technological specialization within Mechanical Engineering. The two courses Mechanics 1 and 2 create a foundation for the advanced courses in solid mechanics.

Mechanics 1 has the following learning outcome:

Knowledge:
The candidate will get knowledge of:
- Central mechanical quantities as force and moment
- Background and use of the equations of equilibrium
- The behaviour of typical components as bars, beams and cables.
- Calculation of the centroid of an area and other relevant cross section parameters.
- Definition of stress, strain, elasticity and lateral contraction
- Basic assumptions in linear beam theory

Skills:
The candidate will be skilled on:
- Calculate forces in static determinate structures
- Calculate and create diagrams of moments, shear and axial forces (M-, V- and N-diagrams)
- Calculate axial stresses and strains caused by N and M
- Perform simple deformation calculations
- Apply Matlab as a tool in analysis of problems in mechanics

General competence:
The candidate have competence in:
- Basic principals in statics and mechanics of materials
- Perform simple calculations by hand and with Matlab within the framework of the syllabus of the course

Learning methods and activities

Lectures, calculation exercises and laboratory exercise. Matlab is applied in some exercise problems. Access to the exam requires that the laboratory exercise and 2/3 of the calculation exercises have to be approved. If there is a re-sit exam, the examination form may be changed from written to oral.

Compulsory assignments

  • Exercises

Course materials

K. Bell: Konstruksjonsmekanikk. Del I - Likevektslære
K. Bell: Konstruksjonsmekanikk. Del II - Fasthetslære

Credit reductions

Course code Reduction From
TKT4118 7.5 sp
TKT4126 7.5 sp
TKT4126 4.5 sp
This course has academic overlap with the courses in the table above. If you take overlapping courses, you will receive a credit reduction in the course where you have the lowest grade. If the grades are the same, the reduction will be applied to the course completed most recently.

Subject areas

  • Structural Mechanics
  • Mechanics

Contact information

Course coordinator

Lecturers

Department with academic responsibility

Department of Structural Engineering

Examination

Examination

Examination arrangement: Written examination
Grade: Letters

Re-sit examination - Summer 2016

Written examination
Weighting 100/100 Date 2016-08-13 Time 09:00 Duration 4 timer Place and room Not specified yet.

Ordinary examination - Spring 2016

Written examination
Weighting 100/100 Date 2016-05-31 Time 09:00 Duration 4 timer Place and room Not specified yet.

All about examinations at NTNU