MAJO4300 Advanced Midwifery Care Course description

Emnet fokuserer på jordmorfaglige temaområder som synliggjør faglige, etiske og juridiske aspekter. Det diskuteres spesielt hvordan jordmor må forholde seg til ulike situasjoner som oppstår når teknologien skal håndteres på en forsvarlig måte samtidig som omsorgsverdier skal ivaretas. Videre diskuteres helsepolitikk og helsepolitiske føringer for jordmorfag, samt kulturelle og globale problemstillinger, som medikalisering og demedikalisering av svangerskap, fødsel og barselomsorgen. Disse diskusjonene er viktige for studentens bevisstgjøring av profesjonens rolle i et høyteknologisk og biomedisinsk preget miljø.

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

Knowledge

The student can:

• Understand different levels of the materials substructure, and their influence in macroscopic properties and behavior: starting from the electronic structure of atoms, the different atomic bonding mechanisms, the atomic and ionic arrangements in materials and how the materials imperfections and their movement affect mechanical properties.
• Describe defects in crystalline materials, and explain grain boundary strengthening in polycrystalline materials.
• Explain driving forces for diffusion in materials, and the relevance of diffusion on different metal processing methods.
• Understand relevant properties of materials and the tests commonly performed to characterize these properties.
• Explain how liquid materials solidify via heterogeneous nucleation and describe different casting processes.
• Understand the various hardening mechanisms of metals: work hardening and annealing; solid-solution hardening; dispersion hardening; precipitation or age hardening.
• Understand phase diagrams as a means to identify the phases present in an alloy at different compositions and temperatures, and predict the microstructure of alloys resulting from eutectic and eutectoid phase transformations.
• Recognize and understand the main classifications, material structure, properties, processing and applications of other groups of materials beyond steels and aluminum alloys.
• Understand the basic fundamentals of electrochemistry and corrosion.

Skills

The student is capable of:

• Determining the electron configuration of different chemical elements. Using Miller indices to visualize crystalline metal structures and calculate lattice parameters. Inferring macroscopic material properties from crystallographic parameters.
• Calculating defect density, characterizing dislocations quantitatively, identifying slip systems and predicting its influence on mechanical properties.
• Calculating the diffusion coefficient, diffusion rate and diffusion composition profiles.
• Performing tensile testing of metallic materials and producing a test report in accordance with the applicable standard. Identifying stress, strain, elastic modulus, yield point and expressions of ductility and brittleness based on test curves, and measuring hardness.
• Predicting and characterizing fracture and creep. Outlining cold working and annealing processing methods to obtain target properties.
• Applying solidification principles for the characterization and design of iron castings, and determining solid solubility limits in alloys.
• Using phase diagrams to determine: phases present in an alloy, their composition and amounts; quantify dispersion hardening based on the analysis of eutectic and eutectoid phase transformations; design heat treatment methods used for hardening of metals, such as quench and temper to obtain martensite.
• Perform basic calculations related to electrochemistry/corrosion.

General competence

The student has acquired:

• A broad understanding of the different types of materials, where they are used, their properties and how they can be processed.
• The ability to make justified materials selection based on the criteria acquired in the course and with the eventual support of materials databases.
• An insight into the environmental, health-related, social and financial consequences of choices of materials, with an ethical and life cycle perspective.

Lectures, exercises and laboratory work in accordance with the progress schedule.

A supervised three-hour individual written exam.

The exam result can be appealed.

In the event of a resit or rescheduled exam, an oral examination may be used instead. In case an oral exam is used, the examination result cannot be appealed.

A handheld calculator that cannot be used for wireless communication. If the calculator’s internal memory can store data, the memory must be deleted before the exam. Random checks may be carried out.

Grade scale A-F.

One internal examiner. External examiners are used regularly.

Rafael Borrajo

Alle besvarelser vurderes av en intern og en ekstern sensor