Resilience in physical education: A qualitative exploration of protective factors

Resilience refers to findings that some individuals have good outcomes despite exposure to stressors, and protective factors are defined as influences that alter a person’s response to such stressors. Academic resilience research identifies factors that promote positive educational outcomes; however no research to date investigates student resilience in the unique context of Physical Education (PE). The current study sought to explore protective factors that alter secondary school students’ responses to the common stressors associated with PE participation. Interviews and focus groups were conducted with six teachers and 54 students, and transcripts were analysed using thematic analysis. In line with the conceptualisation of protective factors, higher order themes of individual assets and environmental factors were identified. Individual assets included personality, cognitive factors (e.g. value of PE activities) and behavioural factors (e.g. attending extra-curricular activities). Environmental factors included teacher and peer support, and the relative importance of PE promoted by the school and parents

What doesn't kill me...: adversity-related experiences are vital in the development of superior Olympic performance

Objectives: Recent research suggests that experiencing some adversity can have beneficial outcomes for human growth and development. The purpose of this paper was to explore the adversities that the world’s best athletes encounter and the perceived role that these experiences play in their psychological and performance development. Design: A qualitative design was employed because detailed information of rich quality was required to better understand adversity-related experiences in the world’s best athletes. Methods: Semi-structured interviews were conducted with 10 Olympic gold medalists from a variety of sports. Inductive thematic analysis was used to analyze the data. Results: The findings indicate that the participants encountered a range of sport- and non-sport adversities that they considered were essential for winning their gold medals, including repeated non-selection, significant sporting failure, serious injury, political unrest, and the death of a family member. The participants described the role that these experiences played in their psychological and performance development, specifically focusing on their resultant trauma, motivation, and learning. Conclusions: Adversity-related experiences were deemed to be vital in the psychological and performance development of Olympic champions. In the future, researchers should conduct more in-depth comparative studies of Olympic athletes’ adversity- and growth-related experiences, and draw on existing and alternative theoretical explanations of the growth–performance relationship. For professional practitioners, adversity-related experiences offer potential developmental opportunities if they are carefully and purposely harnessed

Critical Appraisal of Parameters for Successful Implementation of BRTS in India

Bus Rapid Transit System (BRTS) is establishing itself as a new and sustainable solution to mass transit against the conventional transit systems in many cities across the globe as well as in India. Different BRTSs have adopted various case-specific solutions to make the system contextual to the place, user-friendly, strategic, technologically advanced, and ecologically sustainable. In most cases, the most favoured solution is governed by aspects related to available infrastructure, budgetary allocations, demand and behavioral patterns of passengers, and areas of focus. The paper makes a critical appraisal of various parameters contributing to the implementation of BRTS services across the world and applicability of the same in India. It also deals with how the application of a new transportation system affects the surrounding area and with the resulting various social and physical impacts. As a conclusion, this paper establishes that successful BRTS must combine proper station design, track design, maintained vehicles and running ways with backup infrastructure, educated and updated drivers and workforce, public cautiousness, and system-backed information technology. Further, it concludes that the institutional framework needs revamping in Indian scenario for successful implementation of BRTS projects

Understanding team resilience in the world's best athletes: a case study of a rugby union World Cup winning team

Objective: Although team resilience research has identified the characteristics of elite sport teams that positively adapt to adversity, further research is required to understand how resilient teams function. The objective of this study, therefore, was to explore the psychosocial processes underpinning team resilience in elite sport. Design: Narrative inquiry was employed to better understand team resilience. Method: The sample consisted of eight members of the 2003 England rugby union World Cup winning team. The autobiographies of these team members were analyzed using three types of narrative analyzes: holistic-content analysis, holistic-form analysis, and categorical-form analysis. Results: Findings revealed five main psychosocial processes underpinning team resilience: transformational leadership, shared team leadership, team learning, social identity, and positive emotions. An examination of narrative structure within the autobiographies revealed a progressive narrative form characterized by a collective positive evaluation of setbacks. Conclusions: This study extends previous team resilience research by going beyond the identification of resilient characteristics to explaining underpinning psychosocial processes. The team resilience processes are discussed in relation to previous research findings and in terms of their implications for practising sport psychologists. It is anticipated that this study will provide practitioners with a framework to develop team resilience at the highest levels of sport

Analytical and Experimental Investigation of the Critical Length in Casing–Liner Overlap

Offshore drilling operations exhibit various difficulties attributed to shallow flows worldwide. One of the most common practices for drilling offshore wells is to use liners and liner hangers rather than using full casing strings. This reduces the cost of drilling operation. Liners and liner hangers are required to pass certain standards prior to their deployment in the field. This ensures their ability to withstand harsh downhole conditions and maintain the integrity of the well. A liner hanger contains an integrated seal assembly that acts as a barrier to prevent fluid migration. The cement that is placed within the casing–liner overlap is also considered a barrier, and it is critical that it maintains the integrity of the well by mitigating fluid migration to other formations and to the surface. The failure of this dual barrier (cement and seal assembly) system to seal the annular space can result in serious problems that might jeopardize a well’s integrity. Typically, in field applications, the length of a casing–liner overlap is chosen arbitrarily. In some cases, shorter overlaps (50 to 200 ft) are chosen because of the lower cost and easy identification of leaks during pressure tests. However, some loss of well control incidents (particularly the incident that motivated this study) have been linked to fluid leakages along the casing–liner overlap. This paper investigates the critical length of the casing–liner overlap by modeling gas leakage through the cement placed within the overlap using analytical and experimental approaches. Leakage scenarios were developed to mimic gas migration within the cement in the casing–liner overlap. The results showed that the longer the casing–liner overlap, the higher the leakage time. The results also showed that the current casing pressure test duration of 30 min may not be adequate to verify the integrity of the cement within the overlap. Based on the results and analyses, it is recommended to increase the pressure test duration to 90 min. In addition, the results suggest that the length of the casing–liner overlap should not be less than 300 ft to maintain the integrity of the well in the case of gas influx. Further details are highlighted in the results section. In practice, the current rationale behind the selection of a casing–liner overlap length is not sustainable. Thus, the major advantage of this study is that with field data, it provides both scientific and research-based evidence that can be used to inform the decision behind the selection of the casing–liner overlap length, especially in gas migration-prone zones.This research was funded by the Bureau of Safety and Environmental Enforcement (BSEE), Project number E17PC00005. Open Access fees paid for in whole or in part by the University of Oklahoma Libraries.Ye

What doesn’t kill me ... : adversity-related experiences are vital in the development of superior Olympic performance

Objectives: Recent research suggests that experiencing some adversity can have beneficial outcomes for human growth and development. The purpose of this paper was to explore the adversities that the world’s best athletes encounter and the perceived role that these experiences play in their psychological and performance development. Design: A qualitative design was employed because detailed information of rich quality was required to better understand adversity-related experiences in the world’s best athletes. Method: Semi-structured interviews were conducted with 10 Olympic gold medalists from a variety of sports. Inductive thematic analysis was used to analyze the data. Results: The findings indicate that the participants encountered a range of sport- and non-sport adversities that they considered were essential for winning their gold medals, including repeated non-selection, significant sporting failure, serious injury, political unrest, and the death of a family member. The participants described the role that these experiences played in their psychological and performance development, specifically focusing on their resultant trauma, motivation, and learning. Conclusions: Adversity-related experiences were deemed to be vital in the psychological and performance development of Olympic champions. In the future, researchers should conduct more in-depth comparative studies of Olympic athletes’ adversity- and growth-related experiences, and draw on existing and alternative theoretical explanations of the growth-performance relationship. For professional practitioners, adversity-related experiences offer potential developmental opportunities if they are carefully and purposely harnessed

Recent progress in two dimensional Mxenes for photocatalysis: a critical review

Transition metal carbides and nitrides, generally known as MXenes have emerged as an alternative to improve photocatalytic performance in renewable energy and environmental remediation applications because of their high surface area, tunable chemistry, and easily adjustable elemental compositions. MXenes have many interlayer groups, surface group operations, and a flexible layer spacing that makes them ideal catalysts. Over 30 different members of the MXenes family have been explored and successfully utilized as catalysts. Particularly, MXenes have achieved success as a photocatalyst for carbon dioxide reduction, nitrogen fixation, hydrogen evolution, and photochemical degradation. The structure of MXenes and the presence of hydrophilic functional groups on the surface results in excellent photocatalytic hydrogen evolution. In addition, MXenes’ surface defects provide abundant CO2 adsorption sites. Moreover, their highly efficient catalytic oxidation activity is a result of their excellent two-dimensional nanomaterial structure and high-speed electron transport channels. This article comprehensively discusses the structure, synthesis techniques, photocatalytic applications (i.e. H2 evolution, N2 fixation, CO2 reduction, and degradation of pollutants), and recyclability of MXenes. This review also critically evaluates the MXene-based heterostructure and composites photocatalyst synthesis process and their performance for organic pollutant degradation. Finally, a prospect for further research is presented in environmental and energy sciences

Hard Thermal Photon Production in Relativistic Heavy Ion Collisions

The recent status of hard thermal photon production in relativistic heavy ion collisions is reviewed and the current rates are presented with emphasis on corrected bremsstrahlung processes in the quark-gluon plasma (QGP) and quark-hadron duality. Employing Bjorken hydrodynamics with an EOS supporting the phase transition from QGP to hot hadron gas (HHG), thermal photon spectra are computed. For SPS 158 GeV Pb+Pb collisions, comparison with other theoretical results and the WA98 direct photon data indicates significant contributions due to prompt photons. Extrapolating the presented approach to RHIC and LHC experiments, predictions of the thermal photon spectrum show a QGP outshining the HHG in the high-pT-region.Comment: 20 pages with 8 figures. v3: Erratum to [Phys. Lett. B 510 (2001) 98] with correctly labeled Figs. 2, 4, and 5 adde