Two kinds of individuals are distinguished: abstract and concrete. Whereas abstract individuals belong to our conceptual sphere, concrete individuals (i.e. particulars) individuate the world of matter. A subject investigating the external world projects abstract individuals onto concrete ones. The proposal offers a solution to various metaphysical and epistemological puzzles concerning individuals, e.g., the Ship of Theseus, the Polish Logician, problems with reidentification, or proper names. and Jiří Raclavský
The methods of abstraction and idealization are commonly viewed as basic to both the natural and the social sciences. Since the 1970s, they have also been a focus of attention in the philosophy and methodology of science. However, their nature as methods, i.e., sequences of instructions, has not been adequately explicated. The paper attempts to capture the core of these methods in the sense of simplified sequences of instructions. The proposal is illustrated in a reconstruction of the application of both methods in economics as a representative of the social sciences., Metody abstrakce a idealizace jsou běžně považovány za základní pro přírodní i společenské vědy. Od sedmdesátých let se pozornost věnuje také filozofii a metodologii vědy. Jejich povaha jako metody, tj. Sekvence instrukcí, nebyla dostatečně vysvětlena. Příspěvek se pokouší zachytit jádro těchto metod ve smyslu zjednodušených sekvencí instrukcí. Návrh je ilustrován rekonstrukcí aplikace obou metod v ekonomii jako zástupce společenských věd., and Juraj Halas
Accurate estimation of precipitation in mountain catchments is challenging due to its high spatial variability and lack of measured ground data. Weather radar can help to provide precipitation estimates in such conditions. This study investigates the differences between measured and radar-estimated daily precipitation in the mountain catchment of the Jalovecký Creek (area 22 km2, 6 rain gauges at altitudes 815–1900 m a.s.l.) in years 2017–2020. Despite good correlations between measured and radar-based precipitation at individual sites (correlation coefficients 0.68–0.90), the radar-estimated precipitation was mostly substantially smaller than measured precipitation. The underestimation was smaller at lower altitude (on average by –4% to –17% at 815 m a.s.l.) than at higher altitudes (–35% to –59% at 1400–1900 m a.s.l.). Unlike measured data, the radar-estimated precipitation did not show the differences in precipitation amounts at lower and higher altitudes (altitudinal differences). The differences between the measured and radar-estimated precipitation were not related to synoptic weather situations. The obtained results can be useful in preparation of more accurate precipitation estimates for the small mountain catchments.