Numerous films, especially reinterpretations of the Gospel, can be read as loci theologici. Nevertheless, it’s important to recognize that the commercially motivated interest of filmmakers has its theological consequences: a resulting challenge is the catechetical use of apocryphal films in the pastoral praxis of the Church. The paper recalls main documents of the Church, relating to the cinema, stressing the absence of official teaching on the cinema in the last 20 years. Films, produced with commercial motivation, are often kitsch; it’s a result of tendencies to gain the possibly large audiences and to fulfill their expectations. An analysis of selected films (e.g. The Passion of the Christ and Son of God) indicates that the kitschy audiovisual apocrypha, superficial, emotional and lacking of authenticity, become a false filmic transformation of the message of the Bible. The paper postulates the need of constructing a theology of film: its object could be audiovisual texts, which extra-ecclesial theologies influence religious imagination and thinking of the viewers.
The author refers to Roland Barthes’s early concept of mythology in analyzing the films of Jerzy Kawalerowicz, one of the most outstanding Polish directors of the twentieth century. He interprets three of Kawalerowicz’s films, Pociąg [Night Train], Matka Joanna od Aniołów [Mother Joan of the Angels] and Faraon [Pharoah], which are read in the mythological register and in the political context. First the statements of the director in regard to each film are presented, then the judgments of film critics are provided, and finally the author gives his own interpretation. Night Train is shown as a film addressing the wrongs of the Stalinist era, and the problem of a totalitarian state. Mother Joanne of the Angels questions the sense of ideology in a totalitarian world, and is partially the director’s search for political identity, while Pharoah is a look at the post-October reformers and the reasons for their failure. Pharoah also provides a new vision of the state.
For several decades of the last century, semiotic arrangements enriched the sociology of culture. The aim of the article is to show the achievements of the empirical school of sociology of culture in the perspective of the significant semiotic issues on the example of selectively selected works of the eminent scientist Antonina Kłoskowska and the “Łódź school” which she created. Thanks to Antonina Kłoskowska, the empirical way of the “Łódź school” sociology of culture led from literature reception research to visual arts research. Her students made a significant contribution to Polish sociology of art, sociology of literature, sociology of film, sociology of theater, and visual sociology. The text attempts to sketch semiotic theoretical inspirations, a characteristic theoretical and methodological approach to the study of symbolic culture. The problems of research on the reception of works were described in the context of selected studies on film reception. The starting point was the empirical research of Antonina Kłoskowska regarding the reception of the screening of the Wedding (dir. A. Wajda, 1973).
The presence of the Bible in the movies is a complex reality: besides direct interpretations of the stories from the Holy Scriptures, a number of films has been inspired by other cultural sources (passion-plays, arts, literature, music, other films). By reason of its subject and its non-religious origin, a biblical film is important for theologians: numerous audiovisual adaptations of the Gospel have raised the issues of the faithfulness of this particular kind of translation (transmediatization) of the Bible. A particular attention should be paid to Jesus-movies because of their impact on the audiences and very different ways of portraying of Jesus (from a relatively simple „historical" Jesus till elaborated Christ-figures).
Falling film, shell-tube type evaporators are commonly used heat exchangers for the production of fruit juice concentrate. The main problem in the design of the exchanger is a reliable estimation of wall heat transfer coefficients for all effects in real operating conditions. Most literature sources for the overall heat transfer coefficients are based on laboratory measurements, where the tubes are usually short, no fouling exists and the flow rate is carefully adjusted. This paper shows the heat transfer estimated in real industrial operating conditions, compared to literature sources. Paper is based on the author’s own experience in designing and launching several evaporators for juice concentrate production into operation. As a summary, the design heat transfer coefficients are provided with relation to sugar content in juice concentrate.
The paper presents general information on LTCC materials, manufacturing processes and properties of fired modules. A Multichip Module package has been the main application of Low Temperature Cofired Ceramic (LTCC) technology. Recently, this technology is also used for production of sensors, actuators and microsystems. The research and development on the LTCC sensors and microsystems carried out in the Laboratory of Thick Film Microsystems at Wroclaw University of Technology are presented. LTCC microfluidic system is described in detail. Moreover, a short information is given on other LTCC applications .
In modern microelectronics progress has been made towards low power ultra large-scale integration (ULSI), and nano-structure devices such as single electron transistors and quantum dots. In this technology application of new materials, which includes high-κ dielectrics for the MOSFET transistors, with extraordinary purity and uniformity is required. Failure analysis and reliability investigations of such films very often requires highresolution local measurements of electrical surface parameters. This kind of experiments can be performed using conductive atomic force microscopy, which provides simultaneous measurement of surface topography and current ?owing through the investigated layer. In order to acquire reliable data, there was designed a precise measurement and control system, which included a low-noise current-to-voltage converter of picoampere resolution, a scanning stage with control electronics and a data acquisition system. In the paper we describe the architecture of the designed and applied experimental set-up. We also present results of simultaneous measurements of topography and current on gold and highly oriented pyrolytic graphite (HOPG).
In the paper, the authors investigate the assumptions concerning checking calculations of a sliding bearing with a floating ring. The adiabatic model of the bearing is used for the calculations. Particular design stages are depicted in the form of a structural chart. The proper work conditions of the bearing are formulated and discussed. For the presented calculation example, the authors have determined the area of feasible solutions. In the conclusion, the authors formulate suggestions that might be useful for the designers who deal with these types of bearings.
The aim of this work was to produce a thin SnO2 film by a technique combining the sol-gel method and electrospinning from a solution based on polyvinylpyrrolidone and a tin chloride pentahydrate as a precursor. The spinning solution was subjected to an electrospinning process, and then the obtained nanofiber mats were calcined for 10 h at 500°C. Then, the scanning electron microscopy morphology analysis and chemical composition analysis by X-ray microanalysis of the manufactured thin film was performed. It was shown that an amorphous-crystalline layer formed by the SnO2 nanofiber network was obtained. Based on the UV-Vis spectrum, the width of the energy gap of the obtained layer was determined.
Thin films of crystallized LaCoO3 were grown on Si substrate by Pulsed Laser Deposition at different temperatures (750°C, 850°C and 1000°C). The structural characterization of the LaCoO3 thin films was done by combining several techniques: Scanning Electron Microscopy (SEM), Atomic Force Microscope (AFM), Transmission Electron Microscopy (TEM) and Grazing Incidence X-Ray Diffraction (GIXRD). The thin films crystallized in the expected rhombohedral phase whatever the deposition temperature, with an increase of crystallite size from 70 nm at 750°C to 100 nm at 1000°C, and an average thickness of the thin films of less than 200 nm. At 850°C and 1000°C, the thin films are crack-free, and with a lower number of droplets than the film deposited at 750°C. The grains of LaCoO3 film deposited at 850°C are columnar, with a triangular termination. At 1000°C, an intermediate layer of La2Si2O7 was observed, indicating diffusion of Si into the deposited film.