4,174 research outputs found
Poverty Matters: The Correlation of Poverty to Test Outcomes in Buffalo, Amherst, and Cheektowaga Schools
Correlation of Poverty to Test Outcomes in Buffalo, Amherst and Cheektowaga Schools data sets
State of the Artist: Challenges to the New York State Arts & Entertainment Industry and its Workforce
[Excerpt] In 2009, with support from Empire State Development (ESD), the Cornell University ILR School published its first report on the state of the New York arts and entertainment (A&E) workforce, Empire State’s Cultural Capital at Risk? Assessing Challenges to the Workforce and the Educational Infrastructure for New York State’s Arts and Entertainment Industry. The report analyzed a number of key characteristics of the A&E workforce across electronic media, live performing, and visual arts, identifying the most pressing issues for New York A&E workers and the support structures in place to protect their interests. The report concluded by proposing a number of questions to policymakers to be considered in future legislation.
State of the Artist both updates this analysis of the State A&E workforce and analyzes trends in recent years based on comparable data presented in the 2009 report. The current report draws from government surveys, industry reports, and interviews with key stakeholders to assess the condition of the NYS A&E industry and its workforce, identifying key issues faced by workers in each sector of the industry.
In addition to an extensive review of current literature, data from primary and secondary sources was analyzed to assess the state of the industry and major trends by sector. Survey data from the US Census Bureau and Department of Labor, notably from the American Community Survey (ACS), were retrieved to isolate trends in A&E workforce employment patterns, demographics, and income by occupational group. This analysis, including a conference attended by industry leaders and representatives to assess reactions to preliminary findings, served to identify current challenges facing this vital workforce to the state economy.
Often left out of discussions about precarious workers, many working within the A&E industry continue to face high rates of contingent and project-based employment, low average income, and inadequate employment protections—all of which are explored here. State of the Artist concludes with a summary of public policies currently in place as well as those under consideration, providing an updated set of questions for New York policymakers
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User-intermediaries and the local embedding of low carbon technologies
This article draws on three theoretical fields, innovation intermediaries, socio-technical transitions and domestication studies to develop a process perspective of how user-side intermediary organisations seek to locally embed low carbon technologies. The term local embedding is increasingly used by transition researchers in a variety of ways. The first contribution of this paper is to explore and substantiate the concept of local embedding as the process of integrating technologies into local contexts of use. Intermediary organisations are conceived as contributing to local embedding where they facilitate, configure and broker change towards configurations that work. Nonetheless, understanding how these key intermediary processes relate as well as the influence of system dynamics on the work intermediaries undertake is still largely uncharted territory. The paper’s second contribution is a process perspective on the agency of intermediary organisations in local embedding. The resulting perspective offers insights into the agency of user-side intermediaries and later phases of transition processes
Solvation Dynamics of the Fluorescent Probe PRODAN in Heterogeneous Environments: Contributions from the Locally Excited and Charge-Transferred States
The coexistence of different excited states with different properties of the same chromophores could have significant consequences for the accurate characterization of solvation dynamics in a heterogeneous environment, such as a protein. The purpose of this work is to study the contributions of the locally excited (LE) and charge-transferred (CT) states of the fluorescent probe molecule 6-propionyl-2-(N,N-dimethylamino)naphthalene (PRODAN) to its solvation dynamics in the heterogeneous environment provided by reverse micelles formed by sodium 1,4-bis-(2-ethylhexyl) sulfosuccinate (AOT)/n-heptane/water. We have found that the LE and CT states of PRODAN solvate on different time scales in reverse micelles (2 and ∼0.4 ns, respectively), consistent with results suggested in the literature, and have concluded that PRODAN’s use as a probe of heterogeneous environments must be used with caution and that, more importantly, the same caution must be exercised with any chromophore capable of emitting from different excited states
Smart Table Top
Dungeons and Dragons 5th Edition (D&D) is a tabletop role playing game (TTRPG) with complicated mechanics and a seemingly overwhelming amount of information. D&D players are often looking for ways to more effectively track information and products that enhance their game experience. One such product is a custom miniature; players use these to track their character’s location and for the enjoyment of creating a physical representation of their imagination. Virtual Tabletops (VTT’s) were developed to make the entire experience digital. The digital nature of VTT’s make all of the game’s rules and mechanics accessible at the click of the mouse; however, it also alienates players from a physical connection to the game. The smart game board offers digital convenience while preserving the physical connection to the game. The game board wirelessly communicates with the pieces on the board to provide quick access to their specific rules and mechanics while also determining their location on the board. The board utilizes a digital display to swap between different game boards/maps. The smart game board saves time and simplifies the experience for players by displaying only the most relevant information and it enhances their experience by utilizing their custom miniatures. This makes the game more accessible to beginners, reduces risk of error for the game master and allows everyone to focus more on enjoying the game. This product could easily be adapted to accommodate any board game with pieces large enough to contain wireless communication technology. Future developments of this product could also include an automatic board setup feature if the piece has a known board layout such as chess, checkers, or monopoly
Community energy business model evolution:a review of solar photovoltaic developments in England
The ongoing energy system transformation process is placing citizens and communities at the heart of future energy systems. To date, their participation has focused on the ownership and control of renewable energy installations facilitated by supportive national policies. Yet across many European countries, policies that have previously supported the deployment of small-scale renewable projects are being withdrawn. Social innovation and the evolution of business models are needed if citizen participation is to continue and succeed in this new policy landscape. At the same time, few business models stand still. This paper reviews the evolution of community energy business models in England to provide insights into the potential of community participation in the energy system post subsidies. Concentrating on community solar photovoltaic projects as the cornerstone technology, this review identifies and critique three archetypal business models as sequentially dominating English community renewable energy to date. Using insights from both Science and Technology Studies and Transaction Cost Economics, it explores the drivers and origin of these models as well as resulting community benefits. Looking forwards and by reviewing current activity, this paper identifies new intermediary actors as playing a key role in facilitating and brokering new, increasingly complicated and commercial community energy business models. We argue that this marks a significant break from the past and may, in time, offer more opportunities for community participation in energy system transformation. Moreover, it offers some communities the possibility of staying small and retaining their more radical potential
Y(2175): Distinguish Hybrid State from Higher Quarkonium
The possibility of Y(2175) as a meson is studied. We
study the decay of from both the model and the
flux tube model, and the results are similar in the two models. We show that
the decay patterns of strangeonium hybrid and
are very different. The experimental search of the decay modes ,
, , is suggested to distinguish the two
pictures. Measuring the partial width ratios is crucial to
discriminate the from the assignment.Comment: 13 pages, 8 figure
Comparison of the Dielectric Response Obtained from Fluorescence Upconversion Measurements and Molecular Dynamics Simulations for Coumarin 153−Apomyoglobin Complexes and Structural Analysis of the Complexes by NMR and Fluorescence Methods
We present a comparison of the dielectric response obtained from fluorescence upconversion experiments and from molecular dynamics simulations of the complexes of coumarin 153 with five apomyoglobins (apoMbs): wild-type horse heart (HH-WT) and those of wild-type sperm whale (SW-WT); its two triple mutants, L29F/H64Q/V68F and H64L/V68F/P88A; and its double mutant, L29F/V68L. Comparisons between experimental and simulated solvation relaxation functions, C(t)s, for the wild-type proteins range from very good to excellent. For the three mutants we investigated, however, agreement between experiment and simulation was considerably inferior. Thus, an NMR study of the complex of the HH-WT complex apoMb, and fluorescence energy transfer and anisotropy studies of the five complexes, were performed to investigate the structures upon which the simulations were based. The NMR measurements confirm our earlier conclusions that the C153 lies in the heme pocket of the HH-WT apoMb. For the wild-type complexes, fluorescence energy transfer measurements provide two rise times, suggesting a definite spatial relationship between the two Trp donors and the C153 acceptor. These results confirm the structural integrity of the wild-type complexes and validate the initial structures used for the molecular dynamics simulations. On the other hand, the three mutants provided single exponential rise times for energy transfer, suggesting that the position of the C153 used in the simulations may have been in error or that the C153 is mobile on the time scale of the energy transfer experiment. Fluorescence anisotropy studies also suggest that the double mutant was not structurally intact. Furthermore, examination of these systems demonstrates the sensitivity of C153 to its environment and permits the observation of differences in the heme pockets. These results point to the importance of structural characterization of modified proteins used in studies of the dielectric response and suggest strategies for performing molecular dynamics simulations of modified proteins
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