SYLLABUS

University: Technical University of Košice

Faculty: Faculty of Electrical Engineering and Informatics

Department: Department of Physics

Course Number: 2618831

Course Name: Progressive Materials

Type, scope and method of learning activities:
Course Type: Lecture
Recommended scope of the course content (in hours):
Full-time study (hours per week): 2
Part-time study (hours per semester): ST 26
Study Method: Attendance

Number of credits: 6

Recommended semester of study: ST

Recommended semester

Study programme

Study grade

Study Method

3.rok ST

Physical Engineering of Advanced Materials (FIPM_Bc_D_sk)

Bachelor

Attendance

Level of study:

Prerequisites:

Course completion requirements:
Assessment and completion of the course: Examination
Continuous assessment:
report on the latest knowledge in the field of advanced materials
Final assessment: Student passes the final assessment and passes the examination when he or she meets the requirement to obtain at least 51% out of 100%.
examination
Overall assessment: Overall assessment is the sum of the assessments obtained by students in the assessment period. The overall result is determined in accordance with the internal regulations of the Technical University in Košice. (Study Regulations, the internal regulation principles of doctoral studies)

Learning outcomes:
The aim of the course is to provide students with an overview of modern materials and their physical-chemical properties that generate interest in these materials in practice. The course is directed to the newest and non-traditional materials with exceptional properties.

Brief course content:
The course, in realization of which several teachers and researchers of the Department of Physics and Institute of Experimental Physics, Slovak Academy of Sciences in Košice will participate, is devoted to the recent trends in material sciences and material applications. The content will include recent successes and problems mainly in the field of nanomaterials, some soft condensed materials, modern magnetic, polymer and superconducting materials, in which the lecturers do active research. A part of the course will be devoted to metamaterials, biomedical and by biology inspired materials.

Recommended Reference Sources:
It is not possible to give a comprehensive textbook or monography to this course. Parts of the following monographies will be used, e.g.:
1. S. Gemming, M. Schreiber, J.-B. Suck, (Eds.): Materials for Tomorrow. Theory, Experiments and Modelling. Springer Series in Material Science, Vol. 93, 2007
2. R.A.L. Jones: Soft Condensed Matter. Oxford Univ. Press, 2002
3. D.R. Askeland, P. Pradeep: The Science and Engineering of Materials. Thomson-Engineering, 2005
4. National Research Council: Condensed-Matter and Materials Physics: Basic Research for Tomorrowa#8216;s Technology. The National Academies Press, 1999 (online www.nap.edu/)
5. Yoseph Bar-Cohen: Biomimetics. Biologically Inspired Technologies. Oxford Univ. Press, 2006
Original scientific and scientific-popular articles will be used (from physics journals and journals on materials, as Nature Materials, Materials Today, Journal of Materials, Acta Materialia, Advanced Materials, Advanced Functional Materials, Macromolecular Bioscience, Metamaterials and others) and internet sources (arXiv Physics and specialized sources).

Recommended optional program components:

Languages required for the course completion: Slovak, English

Notes:

Course assessment:
Total number of students assessed: 31

87%

10%

Teacher:
prof. RNDr. Vladimír Lisý, DrSc.
prof. RNDr. Jana Tóthová, PhD.

Last modified: 31.08.2022

Approved by: person(s) responsible for the study program