EPN-V2

SFV4700 Globalisation and the Development of Health and Social Policy Course description

Course name in Norwegian
Globalisation and the Development of Health and Social Policy
Study programme
Master Programme in Applied Social Sciences - Study Option International Social Welfare and Health Policy
Master Programme in Applied Social Sciences - Programme Option Child Care, part-time
Master Programme in Applied Social Sciences - Programme Option Child Care
Master in Programme Applied Social Sciences
Master Programme in Applied Social Sciences
Elective modules, Master Programme in Applied Social Sciences
Master Programme in Applied Social Sciences - Programme Option Social Work, part-time
Master Programme in Applied Social Sciences - Programme Option Social Work
Weight
10.0 ECTS
Year of study
2018/2019
Curriculum
SPRING 2019
Schedule
Programme description
Course history

Introduction

Today, mechanical construction and technical design are conducted using digital engineering tools. In this course, you will use knowledge and skills from traditional mechanical subjects together with a digital engineering tool to design mechanical parts, components and products. You will also learn how to document your work.

Required preliminary courses

None.

Learning outcomes

After completing the course, the student is expected to have achieved the following learning outcomes defined in terms of knowledge, skills and competence:

Knowledge

The student

  • is capable of identifying common mechanical components and structural components and explaining what they are used for
  • is familiar with the systematic work involved in constructing parts, and putting the parts together to form components and products
  • knows the production documentation requirements
  • knows the rules for machine drawing

Skills

The student is capable of

  • digitally modelling parts, components and products, and generating correct detailed drawings and assembly drawings based on the digital models
  • carrying out power analysis and stress calculations
  • constructing and dimensioning common machine parts and components such as screws and screw connections, welds and welded assemblies, shafts, shaft bearings, shaft-hub connections and simple shafting/transmissions
  • carrying out simple fatigue calculations for machine parts based on infinite service life
  • conducting simple element analysis

General competence

The student is capable of

  • correctly documenting his or her own work and presenting them digitally

Teaching and learning methods

The course is organised into a series of lectures and seminars. Students are expected to play an active role. Lectures are given by both the course lecturer and invited lecturers. Students will also be required to present papers, and discuss course themes during lectures and seminars.

Course requirements

Exam spring 2021 due to Covid-19:

The portfolio consists of an individual report (word limit 3000-4000) based on a case study from Mechanical Engineering.

[Exam earlier]:

Portfolio assessment of four individual construction projects. Students are expected to work on the assignments for four hours per week throughout the semester. The assignments must be submitted on Canvas.

The exam result can be appealed.

Assessment

Individual six-hour written school examination.

Permitted exam materials and equipment

All aids are permitted.

Grading scale

Forelesninger og individuelle øvinger. Øvingene er basert på eget arbeid med veiledning fra faglærer og/eller studentassistent.

Examiners

Følgende arbeidskrav er obligatorisk og må være godkjent for å fremstille seg til eksamen:

  • 1 oppgave
  • 2 individuelle prøver av 30 minutters varighet (uten bruk av hjelpemidler)

Course contact person

The course builds on MAPE1300 Mechanics.