Fundamentals of Radiation Protection and Nuclear Technology
BASIC DATA
course listing
A - main register
course code
EVM0430
course title in Estonian
Kiirguskaitse ja tuumatehnoloogia alused
course title in English
Fundamentals of Radiation Protection and Nuclear Technology
course volume CP
-
ECTS credits
6.00
to be declared
yes
fully online course
not
assessment form
Examination
teaching semester
autumn - spring
language of instruction
Estonian
English
Study programmes that contain the course
Structural units teaching the course
EV - Virumaa College
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Õppeaine eesmärk on:
- omandada kiirguskaitse mõistmiseks vajalikud füüsikalised alused;
- anda ülevaade erinevatest looduslikest kiirgusallikatest meie ümber;
- tutvustada tehislikke kiirgusallikaid ja tuumatehnoloogia rakendusi;
- omandada kiirgusohutuse tagamise põhimõtted.
- omandada kiirguskaitse mõistmiseks vajalikud füüsikalised alused;
- anda ülevaade erinevatest looduslikest kiirgusallikatest meie ümber;
- tutvustada tehislikke kiirgusallikaid ja tuumatehnoloogia rakendusi;
- omandada kiirgusohutuse tagamise põhimõtted.
course aims in English
The aim of this course is to:
- teach the physical foundations necessary for understanding radiation protection;
- give an overview of the various natural sources of radiation around us;
- introduce artificial radiation sources and applications of nuclear technology;
- gain an understanding of the principles for ensuring radiation safety.
- teach the physical foundations necessary for understanding radiation protection;
- give an overview of the various natural sources of radiation around us;
- introduce artificial radiation sources and applications of nuclear technology;
- gain an understanding of the principles for ensuring radiation safety.
learning outcomes in the course in Est.
Õppeaine läbinud üliõpilane:
- kirjeldab ja võrdleb ioniseeriva kiirguse liike ning nende vastastikmõju ainega;
- eristab ja tunneb ära tunda olulisemaid looduslikke kiirgusallikaid;
- kirjeldab ja selgitab erinevaid tehislikke kiirgusallikaid ning nende rakendusvaldkondi;
- kirjeldab ja selgitab kiirgusohutuse tagamise põhimõtteid ning kiirguskaitse regulatiivseid aluseid.
- kirjeldab ja võrdleb ioniseeriva kiirguse liike ning nende vastastikmõju ainega;
- eristab ja tunneb ära tunda olulisemaid looduslikke kiirgusallikaid;
- kirjeldab ja selgitab erinevaid tehislikke kiirgusallikaid ning nende rakendusvaldkondi;
- kirjeldab ja selgitab kiirgusohutuse tagamise põhimõtteid ning kiirguskaitse regulatiivseid aluseid.
learning outcomes in the course in Eng.
After completing this course the student:
- describes and compares the types of ionizing radiation and their interactions with matter;
- distinguishes between and identifies the primary sources of natural radiation;
- describes and explains various artificial radiation sources and their areas of application;
- describes and explains the foundational principles of radiation safety and the regulatory framework of radiation protection.
- describes and compares the types of ionizing radiation and their interactions with matter;
- distinguishes between and identifies the primary sources of natural radiation;
- describes and explains various artificial radiation sources and their areas of application;
- describes and explains the foundational principles of radiation safety and the regulatory framework of radiation protection.
brief description of the course in Estonian
Kursus annab ülevaate ioniseeriva kiirguse looduslikest ja tehislikest allikatest ning tuumatehnoloogia rakendustest, võimaldades avastada, kui paljudes eluvaldkondades me ioniseeriva kiirgusega kokku puutume. Lähtudes ioniseeriva kiirguse füüsikalistest omadustest käsitletakse kiirgusohutuse tagamise põhimõtteid ja kiirguskaitse regulatiivset raamistikku.
brief description of the course in English
The course offers an overview of both natural and artificial sources of ionizing radiation and explores the diverse applications of nuclear technology, revealing the many ways ionizing radiation intersects with our daily lives. Based on the physical properties of ionizing radiation, the principles of ensuring radiation safety and the regulatory framework of radiation protection are discussed.
type of assessment in Estonian
Eristav
type of assessment in English
Grading
independent study in Estonian
-
independent study in English
-
study literature
- IAEA, 2004 "Kiirgus, inimesed ja keskkond", tõlkija Ruth Hint, toimetajad Kristel Kõiv, Merle Lust, Tõnu Viik, väljaandja Mixi Kirjastus OÜ. (Kättesaadav aadressilt http://www.digar.ee/id/nlib-digar:47885)
- European Commission, Joint Research Centre – Cinelli, G., De Cort, M. & Tollefsen, T. (Eds.) "European Atlas of Natural Radiation" Publication Office of the European Union, Luxembourg, 2019. (Kättesaadav aadressilt https://remon.jrc.ec.europa.eu/About/Atlas-of-Natural-Radiation/Download-page)
- Loengumaterjalid tehakse kättesaadavaks Moodle vahendusel.
- European Commission, Joint Research Centre – Cinelli, G., De Cort, M. & Tollefsen, T. (Eds.) "European Atlas of Natural Radiation" Publication Office of the European Union, Luxembourg, 2019. (Kättesaadav aadressilt https://remon.jrc.ec.europa.eu/About/Atlas-of-Natural-Radiation/Download-page)
- Loengumaterjalid tehakse kättesaadavaks Moodle vahendusel.
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
16.0
practices
1.0
practices
8.0
exercises
1.0
exercises
8.0
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring
Siiri Salupere, EV - Virumaa College
Estonian