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How to find the rate of border stress in the survival drill
Heřmánek, Jaroslav ; Barták, Erik (advisor) ; Majerčík, Petr (referee)
AABBSSTTRRAACCTT TTiittllee:: How to find the rate of border stress in the survival drill PPuurrppoossee:: Purpose of this master thesis is try to find acceptable instruments for determination of border stress in the survival drill. MMeetthhooddss:: This master thesis was worked up as empiric quantitative research observation type. We have tested 15 participants of course "Přesuny na sněhu a ledu" and 16 participants of course for survival instructors. For testing we used four motoric tests which were prepared to find actual stress of probands, psychological test OPTIM and in the second course hematologic research. RReessuullttss:: Measured values demonstrate possible connection in two motoric tests where the results are getting worse in border stress and in the extreme stress. In rest two tests there was not proved any connection between the results of tests and stress. KKeeyy wwoorrddss:: Actual stress, stress, soft motorics, equilibrium abilitiy, reaction ability, action ability, tapping rate. Vytvořeno pomocí Software602 Print2PDF 8. Tuto řádku odstraníte zakoupením licence a aktivací na http://www.software602.cz/
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Experimental Investigation of Accelerator Driven Nuclear Reactors for Thorium Based Nuclear Power
Zeman, Miroslav ; ČR,, Milan Štefánik, UJF AV (referee) ; Katovský, Karel (advisor)
The Master Thesis deals with the use of thorium nuclear fuel in accelerator driven systems. Basic principle of ADS, present situation and future possibilities are described in this work. The main goal of the work is determination of neutron flux in spallation target QUINTA. In December 2013, an experiment was performed at Joint Institute for Nuclear Research, Dubna. Samples of cobalt, situated at different positions in QUINTA target, were irradiated in secondary neutron field generated by deuteron beam of energies 2 AGeV and 4 AGeV and beam of C-12 with energy 2 AGeV. The samples were measured with the use of germanium semiconductor detectors and analysed using gamma-ray spectrometry. Reaction rates of Co-59 products were determined. Neutron flux was determined in setup QUINTA on the base of experimental reaction rates. Experimental reaction rates were compared with calcula1tion of MCNPX code.
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