Programme Catalogue & ECTS Guide

X-ray, electron, and neutron diffraction Field of study: Materials Science and Engineering
Programme code: 08-S2MA12.2014

Module name:	X-ray, electron, and neutron diffraction
Module code:	IM2A_ PS1_DREN
Programme code:	08-S2MA12.2014
Semester:	summer semester 2014/2015
Language of instruction:	Polish
Form of verification:	course work
ECTS credits:	3
Description:	The module X-ray, electron, and neutron diffraction shall enable students understanding and mastering theoretical basics of engineering materials testing methods, using X-ray, electron, and neutron diffraction. Owing to that students shall achieve a better understanding of correlations between engineering materials structure and their properties. The understanding of those relationships and correlations shall result in deepening the skill to define a research problem, to choose properly research methods and analyses adequate to the engineering material type and degree of its ordering.
Prerequisites:	It is required to achieve effects of education of the modules: physics (solid state physics), mathematics, crystallography, materials testing methods
Key reading:	(no information given)

Learning outcome of the module	Codes of the learning outcomes of the programme to which the learning outcome of the module is related [level of competence: scale 1-5]
Learning and understanding basic definitions, mathematical descriptions of the theory of X-ray, electron and neutron diffraction on a single electron, atom and on atom groups, understanding assumptions and basics of kinematic and dynamic X-ray, electron and neutron diffraction. [IM2A_PS1_DREN_1]	IM2A_W05 [5/5] IM2A_W13 [5/5] $<div style="white-space:pre-wrap">have theoretically supported detailed knowledge about modern materials testing methods comprising electron microscopy, scanning probe microscopy techniques, nuclear spectroscopic techniques and advanced X-ray diffraction techniques useful to resolve complex engineering tasks.</div>$
The skill to choose the structure studying methods adequate to the material type and its internal structure, proper interpretation and analysis of X-ray, electron and neutron diffraction patterns, determination of structural parameters from the analysis of various diffraction pattern types. [IM2A_PS1_DREN_2]	IM2A_U18 [5/5]
The skill to apply a research technique to resolve scientific problems from the field of materials engineering. [IM2A_PS1_DREN_3]	IM2A_K04 [5/5] IM2A_K05 [1/5]

Type	Description	Codes of the learning outcomes of the module to which assessment is related
Written test/conversation [IM2A_PS1_DREN_w_1]	Verification of the knowledge based on the lectures content, recommended literature and attended classes	IM2A_PS1_DREN_1 $<div style="white-space:pre-wrap">Learning and understanding basic definitions, mathematical descriptions of the theory of X-ray, electron and neutron diffraction on a single electron, atom and on atom groups, understanding assumptions and basics of kinematic and dynamic X-ray, electron and neutron diffraction.</div>$ IM2A_PS1_DREN_2 $<div style="white-space:pre-wrap">The skill to choose the structure studying methods adequate to the material type and its internal structure, proper interpretation and analysis of X-ray, electron and neutron diffraction patterns, determination of structural parameters from the analysis of various diffraction pattern types. </div>$ IM2A_PS1_DREN_3
Written test [IM2A_PS1_DREN_w_2]	Checking the acquired skills to apply engineering materials testing methods, using X-ray, electron, and neutron diffraction	IM2A_PS1_DREN_1 $<div style="white-space:pre-wrap">Learning and understanding basic definitions, mathematical descriptions of the theory of X-ray, electron and neutron diffraction on a single electron, atom and on atom groups, understanding assumptions and basics of kinematic and dynamic X-ray, electron and neutron diffraction.</div>$ IM2A_PS1_DREN_2 $<div style="white-space:pre-wrap">The skill to choose the structure studying methods adequate to the material type and its internal structure, proper interpretation and analysis of X-ray, electron and neutron diffraction patterns, determination of structural parameters from the analysis of various diffraction pattern types. </div>$ IM2A_PS1_DREN_3
Test [IM2A_PS1_DREN_w_3]	Assessment of mastering the basic knowledge necessary for individual performance of a practical exercise	IM2A_PS1_DREN_1 $<div style="white-space:pre-wrap">Learning and understanding basic definitions, mathematical descriptions of the theory of X-ray, electron and neutron diffraction on a single electron, atom and on atom groups, understanding assumptions and basics of kinematic and dynamic X-ray, electron and neutron diffraction.</div>$ IM2A_PS1_DREN_2 $<div style="white-space:pre-wrap">The skill to choose the structure studying methods adequate to the material type and its internal structure, proper interpretation and analysis of X-ray, electron and neutron diffraction patterns, determination of structural parameters from the analysis of various diffraction pattern types. </div>$
Report [IM2A_PS1_DREN_w_4]	Assessment of the skill to understand theoretical basics of engineering materials testing methods, using X-ray, electron, and neutron diffraction by a proper choice of research methods and a proper formulation of conclusions	IM2A_PS1_DREN_3

Form of teaching			Student's own work		Assessment of the learning outcomes
Type	Description (including teaching methods)	Number of hours	Description	Number of hours	Assessment of the learning outcomes
lecture [IM2A_PS1_DREN_fs_1]	The lecture shall enable understanding issues related to theoretical basics of engineering materials testing methods, using X-ray, electron, and neutron diffraction. The lecture is delivered with the use of multimedia, demonstrations and software used to analyse the radiation scattered on a material.	30	The work with the recommended literature comprising independent acquisition of knowledge related to basic issues	15	Written test/conversation [IM2A_PS1_DREN_w_1]
laboratory classes [IM2A_PS1_DREN_fs_3]	Application of acquired theoretical knowledge in practical use at testing the engineering materials structure. Exercises are performed by students individually with the use of equipment of teaching and scientific laboratories.	15	Preparation of theoretical basics and issues related to the topic of performed exercise. Independent preparation of a theoretical introduction. Individual preparation of exercise results.	15	Written test [IM2A_PS1_DREN_w_2] $<div style="white-space:pre-wrap">Checking the acquired skills to apply engineering materials testing methods, using X-ray, electron, and neutron diffraction</div>$ Test [IM2A_PS1_DREN_w_3] Report [IM2A_PS1_DREN_w_4] $<div style="white-space:pre-wrap">Assessment of the skill to understand theoretical basics of engineering materials testing methods, using X-ray, electron, and neutron diffraction by a proper choice of research methods and a proper formulation of conclusions</div>$

Attachments
Module description (PDF)

Information concerning module syllabuses might be changed during studies.

Syllabuses (USOSweb)
Semester	Module	Language of instruction
summer semester 2014/2015	Specialised subject 1 [08-MA-BI-S2-K141-1]	(no information given)

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