Bodily-Affective Aspects of Phenomen in Malevich’s Suprematism

The study addresses some aspects of Suprematist theory of perception, allowing to investigate the structure of Suprematist phenomenon in the context of ontology, socio-political and religious-mystical works of K. Malevich. The aim of the paper is to present Malevich’s theory of perception in the framework of enactivism. Namely, the article focuses on the theory of social affordances, which today is widely used in design, game development and other everyday practices. The author refers to Malevich’s theoretical and sociopolitical essays, as well as to the commentary literature. Although Suprematism represents a well-researched tradition in art theory, the author stress the need for a follow-up study of Malevich’s theoretical essays in the contemporary context of philosophy of consciousness. The author also emphasizes the relevance of Suprematist philosophy for today’s way of thinking. For the most authentic presentation of Malevich’s ideas I use the phenomenological and hermeneutical method on a par with elements of the ecological approach in psychology and enactivism in the philosophy of consciousness. Consequently, the theory of affordances an effective and natural unification of all the aspects discussed above. The study shows the affinity of Malevich’s ideas to this theory. The author focused on the thesis of feeling as the goal of the expressive act of art. As one could see, Kazemir Malevich always emphasized the bodily-affective dimension of art, and in this sense he participated in a global cultural-historical shift in our conception of the essence of art. Since then, art has ceased to be elitist, but has instead inherited everyday practices. Thus, Malevich speaks of a new art that suits the man of the new world, the Soviet citizen. In this context, I relate the idea of affordance, which means the creation of a feeling-opportunity for subjective action (agency), to the artistic act whose goal, according to Malevich, is the creation of an emotional body-affective feeling. I defend the theory of social affordances, explaining the mechanism of social interaction, as the most adequate model for explaining Suprematism. As a result, based on the already developed concept of bodily-affective dynamics, I show how visionary and creative Malevich was, and how his ideas contribute to the development of a theory of social, emotional affordances

A clinical case of secondary arterial hypertension on the background of type I neurofibromatosis with impairment of abdominal aortic branches: diagnosis features, tactics, treatment methods

The purpose of the study was to demonstrate a clinical case of secondary AH in a 5-year-old patient occurring against the background of type I neurofibromatosis with lesions of the abdominal aortic branches caused by nonspecific arteritis.Цель исследования – демонстрация клинического случая вторичной АГ у пациента 5 лет, протекающей на фоне нейрофиброматоза I типа с поражением ветвей брюшной аорты, обусловленным неспецифическим артериитом

The effects of 10 to >160 GPa shock on the magnetic properties of basalt and diabase

© 2016. American Geophysical Union. All Rights Reserved.Hypervelocity impacts within the solar system affect both the magnetic remanence and bulk magnetic properties of planetary materials. Spherical shock experiments are a novel way to simulate shock events that enable materials to reach high shock pressures with a variable pressure profile across a single sample (ranging between ∼10 and >160 GPa). Here we present spherical shock experiments on basaltic lava flow and diabase dike samples from the Osler Volcanic Group whose ferromagnetic mineralogy is dominated by pseudo-single-domain (titano)magnetite. Our experiments reveal shock-induced changes in rock magnetic properties including a significant increase in remanent coercivity. Electron and magnetic force microscopy support the interpretation that this coercivity increase is the result of grain fracturing and associated domain wall pinning in multidomain grains. We introduce a method to discriminate between mechanical and thermal effects of shock on magnetic properties. Our approach involves conducting vacuum-heating experiments on untreated specimens and comparing the hysteresis properties of heated and shocked specimens. First-order reversal curve (FORC) experiments on untreated, heated, and shocked specimens demonstrate that shock and heating effects are fundamentally different for these samples: shock has a magnetic hardening effect that does not alter the intrinsic shape of FORC distributions, while heating alters the magnetic mineralogy as evident from significant changes in the shape of FORC contours. These experiments contextualize paleomagnetic and rock magnetic data of naturally shocked materials from terrestrial and extraterrestrial impact craters

Socio-philosophical grounding of the conception of proletarian culture

The currency of the research consists in the necessity if rethinking of the notion of culture in Russian contemporary thought in order to present more adequately the process of development of culture in a future. The paper aims to elucidate political origins of the movement of Proletarian culture that play the leading role in a creation of a new conception of culture. As a materials were used documents and archives, scientific paper of Russian and foreign researchers. As a maim method was used problematic-analytical reconstruction, explored in the framework of an enactive approach that allows to envelop the subject in its evolvement and to concentrate on concrete practical situations of its realization. Such reconstruction permits to accomplish the original interpretation of the problem. The authors focus in the pre-history of the movement. Analyzing the social-political context of the origin of the movement, the authors come to the conclusion about artificially created necessity of political enlightenment of the society by the revolutionaries. The paper demonstrates how agents of proletarian working circles manipulate by the public opinion of working class. As a result, the paper shows the process of formation the ideology of cultural movement revolutionary period and evaluates significance of ideological function in its realization. The authors produce critical evaluation of the history of the movement in original judgment about political grounding of culture

SOCIOPHILOSOPHICAL REASONS FOR FORMING A CONCEPTION OF PROLETARIAN CULTURE: REVOLUTIONARY ARMED ORIGINS

Actuality of the article consists in the fact that culture plays crucial role in contemporary Russian society. The authors address the origins of this tendency. The aim of the article is an analysis of the beginning of the proletarian culture. As the resources for the paper archive documents of revolutionaries, political articles of that period, scientific papers and books of foreign and domestic authors are used. Problematic-analytic reconstruction with the elements of enactive approach is applied as a main method. The method allows to present the subject in its development and to make an original socio-philosophical interpretation of culture. The paper accentuate a prehistory of proletarian culture movement. Analyzing early works of A. Bogdanov, one of the father of the movement, the authors came to conclusion that the conception of proletarian culture was emerged from agitational politics of Bogdanov, who called to revolutionary armed uprising. Therefore, first stage of proletarian culture was agitation and propaganda for preparation of revolutionary active elements of combative movement. The paper shows the evolution of Boganov’s thought about foundation of proletarian culture: starting from discussing on necessity of revolutionary armed actions, Bogdanov slowly came up with Marxist argumentation of his conception

The effects of 10 to >160 GPa shock on the magnetic properties of basalt and diabase

© 2016. American Geophysical Union. All Rights Reserved.Hypervelocity impacts within the solar system affect both the magnetic remanence and bulk magnetic properties of planetary materials. Spherical shock experiments are a novel way to simulate shock events that enable materials to reach high shock pressures with a variable pressure profile across a single sample (ranging between ∼10 and >160 GPa). Here we present spherical shock experiments on basaltic lava flow and diabase dike samples from the Osler Volcanic Group whose ferromagnetic mineralogy is dominated by pseudo-single-domain (titano)magnetite. Our experiments reveal shock-induced changes in rock magnetic properties including a significant increase in remanent coercivity. Electron and magnetic force microscopy support the interpretation that this coercivity increase is the result of grain fracturing and associated domain wall pinning in multidomain grains. We introduce a method to discriminate between mechanical and thermal effects of shock on magnetic properties. Our approach involves conducting vacuum-heating experiments on untreated specimens and comparing the hysteresis properties of heated and shocked specimens. First-order reversal curve (FORC) experiments on untreated, heated, and shocked specimens demonstrate that shock and heating effects are fundamentally different for these samples: shock has a magnetic hardening effect that does not alter the intrinsic shape of FORC distributions, while heating alters the magnetic mineralogy as evident from significant changes in the shape of FORC contours. These experiments contextualize paleomagnetic and rock magnetic data of naturally shocked materials from terrestrial and extraterrestrial impact craters

The effects of 10 to >160 GPa shock on the magnetic properties of basalt and diabase

© 2016. American Geophysical Union. All Rights Reserved.Hypervelocity impacts within the solar system affect both the magnetic remanence and bulk magnetic properties of planetary materials. Spherical shock experiments are a novel way to simulate shock events that enable materials to reach high shock pressures with a variable pressure profile across a single sample (ranging between ∼10 and >160 GPa). Here we present spherical shock experiments on basaltic lava flow and diabase dike samples from the Osler Volcanic Group whose ferromagnetic mineralogy is dominated by pseudo-single-domain (titano)magnetite. Our experiments reveal shock-induced changes in rock magnetic properties including a significant increase in remanent coercivity. Electron and magnetic force microscopy support the interpretation that this coercivity increase is the result of grain fracturing and associated domain wall pinning in multidomain grains. We introduce a method to discriminate between mechanical and thermal effects of shock on magnetic properties. Our approach involves conducting vacuum-heating experiments on untreated specimens and comparing the hysteresis properties of heated and shocked specimens. First-order reversal curve (FORC) experiments on untreated, heated, and shocked specimens demonstrate that shock and heating effects are fundamentally different for these samples: shock has a magnetic hardening effect that does not alter the intrinsic shape of FORC distributions, while heating alters the magnetic mineralogy as evident from significant changes in the shape of FORC contours. These experiments contextualize paleomagnetic and rock magnetic data of naturally shocked materials from terrestrial and extraterrestrial impact craters

The effects of 10 to >160 GPa shock on the magnetic properties of basalt and diabase

© 2016. American Geophysical Union. All Rights Reserved.Hypervelocity impacts within the solar system affect both the magnetic remanence and bulk magnetic properties of planetary materials. Spherical shock experiments are a novel way to simulate shock events that enable materials to reach high shock pressures with a variable pressure profile across a single sample (ranging between ∼10 and >160 GPa). Here we present spherical shock experiments on basaltic lava flow and diabase dike samples from the Osler Volcanic Group whose ferromagnetic mineralogy is dominated by pseudo-single-domain (titano)magnetite. Our experiments reveal shock-induced changes in rock magnetic properties including a significant increase in remanent coercivity. Electron and magnetic force microscopy support the interpretation that this coercivity increase is the result of grain fracturing and associated domain wall pinning in multidomain grains. We introduce a method to discriminate between mechanical and thermal effects of shock on magnetic properties. Our approach involves conducting vacuum-heating experiments on untreated specimens and comparing the hysteresis properties of heated and shocked specimens. First-order reversal curve (FORC) experiments on untreated, heated, and shocked specimens demonstrate that shock and heating effects are fundamentally different for these samples: shock has a magnetic hardening effect that does not alter the intrinsic shape of FORC distributions, while heating alters the magnetic mineralogy as evident from significant changes in the shape of FORC contours. These experiments contextualize paleomagnetic and rock magnetic data of naturally shocked materials from terrestrial and extraterrestrial impact craters