370 research outputs found
The hand that turns the handle: camera operators and the poetics of the camera in pre-revolutionary Russian film
This article seeks to chart the evolving nature of the camera operator's function at a time when Russian cinema was facing the challenge of self-definition, not only in relation to other art forms, but also in relation to world cinema. It will challenge the conventional notion of the cameraman as merely a âhand that turns the handleâ, a technician (if not automaton) who was responsible only for the correct speed of shooting and exposure of the print. If camera operation started out as a rudimentary craft, one that was nevertheless valued because the mechanisms of the cinematograph were little understood, it rapidly became an art-form as the language of silent cinema acquired sophistication. This article will analyse the evolving nature of the relationship between the director and the camera operator, and the development of certain conventions which pertained to the role of the camera and controlled the expression of dramatic ideas in visual form. It will also seek to identify the reasons for a number of major aesthetic shifts which took place in Russian cinema during the period concerned, and the importance of the visual artsâin particular painting and still photographyâin determining those shifts
'Superior to Disney': Colour Animation at Lenfil'm, 1936-41
This article examines the phenomenon of colour-film animation at Lenfilm during the period 1936â1941. It discusses the development of colour technologies at the studio during the 1930s and the ways in which its artists responded to the aesthetic challenge of colour. Three of the seven short films produced during this period have been selected as case studies; they are examined here in the context of filmed animations in the Soviet Union during the 1930s, in particular the debates prompted by the screening of three Disney animations in Technicolor at the Moscow International Film Festival in 1935. The formal analysis of the case studies is based on the digital restorations in recent years at the Russian State Film Archive (Gosfilmfond), but also the inspection of one nitrate-positive of Mstislav Pashchenkoâs Dzhiabzha (1939), which has survived intact at the archive. The technical difficulties posed by the hydrotype process developed at Lenfilm, as well as the challenge of producing sufficient prints for mass distribution, also form part of the discussion
The Delhi Durbar comes to Moscow: Charles Urban and Kinemacolor in Russia, 1910-1916
This article examines the exhibition and reception of Kinemacolor in Russia from 1910 to 1916. Kinemacolor was a British method of filming and projecting in natural color invented by George Albert Smith and financed by Charles Urban, a US-born entrepreneur; film historians generally regard it as the most commercially viable color process before the outbreak of war in 1914. The article investigates Urban's interest in Russia as a potential market for Kinemacolor and as a source of interesting filmic material. In addition to identifying the extent of Kinemacolor's exhibition and distribution in Russia between 1910 and 1916, it also examines the Russian subjects filmed by Urban's companies in black and white and color, and identifies two occasions (1909 and 1913) on which Tsar Nikolai II and Tsarina Aleksandra Fedorovna were filmed in Kinemacolor. The article argues that the reception of Kinemacolor was widespread and diverse, and included members of the Russian imperial family and the Bolshevik leader, Vladimir Lenin. It references the specialist film-trade press in Britain, Russia, Europe, and North America; theater listings in Britain and Russia; and contemporary reports on Kinemacolor exhibitions in the British and Russian media. The article also draws upon the extensive archive of Urban's private papers, which is currently preserved in Bradford's National Science and Media Museum
Superconducting properties of the In-substituted topological crystalline insulator, SnTe
We report detailed investigations of the properties of a superconductor obtained by substituting In at the Sn site in the topological crystalline insulator (TCI), SnTe. Transport, magnetization and heat capacity measurements have been performed on crystals of SnInTe, which is shown to be a bulk superconductor with at ~K and at ~K. The upper and lower critical fields are estimated to be ~T and ~mT respectively, while indicates this material is a strongly type II superconductor
Thermal noise limitations to force measurements with torsion pendulums: Applications to the measurement of the Casimir force and its thermal correction
A general analysis of thermal noise in torsion pendulums is presented. The
specific case where the torsion angle is kept fixed by electronic feedback is
analyzed. This analysis is applied to a recent experiment that employed a
torsion pendulum to measure the Casimir force. The ultimate limit to the
distance at which the Casimir force can be measured to high accuracy is
discussed, and in particular the prospects for measuring the thermal correction
are elaborated upon.Comment: one figure, five pages, to be submitted to Phys Rev
Role of Sigma-1 Receptors in Neurodegenerative Diseases
Neurodegenerative diseases with distinct genetic etiologies and pathological phenotypes appear to share common mechanisms of neuronal cellular dysfunction, including excitotoxicity, calcium dysregulation, oxidative damage, ER stress and mitochondrial dysfunction. Glial cells, including microglia and astrocytes, play an increasingly recognized role in both the promotion and prevention of neurodegeneration. Sigma receptors, particularly the sigma-1 receptor subtype, which are expressed in both neurons and glia of multiple regions within the central nervous system, are a unique class of intracellular proteins that can modulate many biological mechanisms associated with neurodegeneration. These receptors therefore represent compelling putative targets for pharmacologically treating neurodegenerative disorders. In this review, we provide an overview of the biological mechanisms frequently associated with neurodegeneration, and discuss how sigma-1 receptors may alter these mechanisms to preserve or restore neuronal function. In addition, we speculate on their therapeutic potential in the treatment of various neurodegenerative disorders
Perillyl alcohol in Solid Lipid Nanoparticles (SLN-PA): Cytotoxicity and antitumor potential in sarcoma 180 mice model
Cancer is a group of diseases characterized by the uncontrolled growth of cells. These cells invade organs and tissues by extension or direct dissemination and can spread to other regions of the body.
Nanomedicine offers many possibilities to prevent the spread of cancer tissue and help cure the disease.
In this work, solid lipid nanoparticles (SLN) were used to encapsulate perillyl alcohol (PA), a volatile
monoterpene with proven anticancer activity. Encapsulation of PA into SLN (SLN-PA) is expected to
promote controlled release, increase PA bioavailability, and impair the volatility of the monoterpene.
SLN-PA prepared by high-shear homogenization showed average particle diameter around 254 nm,
polydispersity index ~ 0.35, zeta potential ~ -14.7 mV, and encapsulation efficiency 84.6%. Scanning
electron microscope analysis revealed a decrease in crystallinity, suggesting the encapsulation of PA in
the SLN, confirming the spherical shape and the loading of the monoterpene in the SLN. In vitro cytotoxicity
assays against murine fibroblasts (L929) showed that SLN-PA in both treated doses did not
induce any cytotoxicity on non-tumoral cells. In vivo antitumor effect of the SLN-PA was evaluated in
sarcoma 180-transplanted mice. The in vivo results demonstrated a significant tumor inhibition rate of
51.76 and 54.49% via intraperitoneal application of SLN-PA at doses of 100 and 200 mg/kg/day (p <
0.05), respective when compared to the negative control (dimethyl sulfoxide). Adverse side effects of
SLN-PA were not noticed in the liver, the kidney, or spleen tissue. The developed SLN-PA can be
considered as a safe approach for site-specific antitumor effect in vivo, reinterpreting new nanoparticles-
based cancer therapy.This work was supported by the Banco do Nordeste (grant FUNDECI/2016.0015), Conselho Nacional
de Desenvolvimento CientĂfico e TecnolĂłgico (CNPq), Fundação de Apoio Ă Pesquisa e Ă Inovação
TecnolĂłgica do Estado de Sergipe (Fapitec) and Coordenação de Aperfeiçoamento de Pessoal de NĂvel
Superior (CAPES). Eliana B. Souto would like to acknowledge the Portuguese Science and Technology
Foundation (FCT/MCT) and from European Funds (PRODER/COMPETE) for the project
UIDB/04469/2020 (strategic fund), co-financed by FEDER, under the Partnership Agreement PT2020.info:eu-repo/semantics/publishedVersio
Precision Measurement of the Newtonian Gravitational Constant Using Cold Atoms
About 300 experiments have tried to determine the value of the Newtonian
gravitational constant, G, so far, but large discrepancies in the results have
made it impossible to know its value precisely. The weakness of the
gravitational interaction and the impossibility of shielding the effects of
gravity make it very difficult to measure G while keeping systematic effects
under control. Most previous experiments performed were based on the torsion
pendulum or torsion balance scheme as in the experiment by Cavendish in 1798,
and in all cases macroscopic masses were used. Here we report the precise
determination of G using laser-cooled atoms and quantum interferometry. We
obtain the value G=6.67191(99) x 10^(-11) m^3 kg^(-1) s^(-2) with a relative
uncertainty of 150 parts per million (the combined standard uncertainty is
given in parentheses). Our value differs by 1.5 combined standard deviations
from the current recommended value of the Committee on Data for Science and
Technology. A conceptually different experiment such as ours helps to identify
the systematic errors that have proved elusive in previous experiments, thus
improving the confidence in the value of G. There is no definitive relationship
between G and the other fundamental constants, and there is no theoretical
prediction for its value, against which to test experimental results. Improving
the precision with which we know G has not only a pure metrological interest,
but is also important because of the key role that G has in theories of
gravitation, cosmology, particle physics and astrophysics and in geophysical
models.Comment: 3 figures, 1 tabl
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Situational judgement tests in medical education and training: Research, theory and practice: AMEE Guide No. 100
Why use SJTs? Traditionally, selection into medical education professions has focused primarily upon academic ability alone. This approach has been questioned more recently, as although academic attainment predicts performance early in training, research shows it has less predictive power for demonstrating competence in postgraduate clinical practice. Such evidence, coupled with an increasing focus on individuals working in healthcare roles displaying the core values of compassionate care, benevolence and respect, illustrates that individuals should be selected on attributes other than academic ability alone. Moreover, there are mounting calls to widen access to medicine, to ensure that selection methods do not unfairly disadvantage individuals from specific groups (e.g. regarding ethnicity or socio-economic status), so that the future workforce adequately represents society as a whole. These drivers necessitate a method of assessment that allows individuals to be selected on important non-academic attributes that are desirable in healthcare professionals, in a fair, reliable and valid way. [Table: see text]
What are SJTs? Situational judgement tests (SJTs) are tests used to assess individuals' reactions to a number of hypothetical role-relevant scenarios, which reflect situations candidates are likely to encounter in the target role. These scenarios are based on a detailed analysis of the role and should be developed in collaboration with subject matter experts, in order to accurately assess the key attributes that are associated with competent performance. From a theoretical perspective, SJTs are believed to measure prosocial Implicit Trait Policies (ITPs), which are shaped by socialisation processes that teach the utility of expressing certain traits in different settings such as agreeable expressions (e.g. helping others in need), or disagreeable actions (e.g. advancing ones own interest at others, expense).
Are SJTs reliable, valid and fair? Several studies, including good quality meta-analytic and longitudinal research, consistently show that SJTs used in many different occupational groups are reliable and valid. Although there is over 40 years of research evidence available on SJTs, it is only within the past 10 years that SJTs have been used for recruitment into medicine. Specifically, evidence consistently shows that SJTs used in medical selection have good reliability, and predict performance across a range of medical professions, including performance in general practice, in early years (foundation training as a junior doctor) and for medical school admissions. In addition, SJTs have been found to have significant added value (incremental validity) over and above other selection methods such as knowledge tests, measures of cognitive ability, personality tests and application forms. Regarding differential attainment, generally SJTs have been found to have lower adverse impact compared to other selection methods, such as cognitive ability tests. SJTs have the benefit of being appropriate both for use in selection where candidates are novices (i.e. have no prior role experience or knowledge such as in medical school admissions) as well as settings where candidates have substantial job knowledge and specific experience (as in postgraduate recruitment for more senior roles). An SJT specification (e.g. scenario content, response instructions and format) may differ depending on the level of job knowledge required. Research consistently shows that SJTs are usually found to be positively received by candidates compared to other selection tests such as cognitive ability and personality tests. Practically, SJTs are difficult to design effectively, and significant expertise is required to build a reliable and valid SJT. Once designed however, SJTs are cost efficient to administer to large numbers of candidates compared to other tests of non-academic attributes (e.g. personal statements, structured interviews), as they are standardised and can be computer-delivered and machine-marked
Organisational participation and women - an attitude problem?
Employee participation is a dynamic and contested area of organisational behaviour, attracting continuing academic, practitioner and policy interest and debate. This chapter focuses on organisational participation and women
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