Filtering by
- All Subjects: Performance
- Creators: Rogers, Bradley
- Creators: School of Music, Dance and Theatre
Shakespeare’s Case for Vulnerability: Giving Voice to Pain and Suffering is a combination of two pieces of work. The research centers around understanding the communication of pain and suffering and how this factors into our everyday lives, in combination with an interview and video project called Evolution of Woman. This project sought to determine the different facets of pain and suffering and how, specifically, Shakespeare communicates these concepts in his work. This work also explores how the representation of pain and suffering was different between male and female roles in Shakespeare’s writing. From this research, questions were developed to interview Shakespearean experts and actors. These interviews explore the details of portraying Shakespeare’s characters and how gender plays a role in the characters’ expression of pain and suffering, as well as what it means to be a female actor in plays that are dominated by male characters.
Tales from the Amusement Park is a collection of songs in the musical theatre style with music and lyrics by Matt Villar. The song cycle illustrates a series of vignettes, with each song featuring a different archetypal character (or group thereof) as they navigate a day in a popular amusement park. The project is written for piano and voices, and is most-suited to twelve or fewer voices. The debut performance occurred on March 26 in the Evelyn Smith Music Theatre, and featured twelve singers and one pianist. The cycle aims to connect the audience through the demonstration of "human moments" which are widely relatable, while also introducing them to unique and interesting characters.
Aging is a universal process that every being encounters on their journey of life. The effect of dance as a form of improvement of physical and well-being on the aging body brings upon the question of the impact of somatic-based movement, specifically gestural movement on the perceptions of aging within older and younger adults through a bi-cultural lens of the United States and India. This was investigated using a series of creative partnership workshops that included listening, drawing, and culminating movement activities, followed by a group discussion about the creative process. There were four different participant groups: a group of college students taking an Aging in American Culture collegiate class, a Somatic Practices collegiate dance class, a group of older adults at the Tempe Multigenerational Center, and a group of older adults in Bangalore, India. Inter-generational and cross-cultural observations were discussed, and it was seen that the workshops were able to foster feelings of community and camaraderie among participants depending on the group’s relationship to dance-making. From the research, a dance performance was developed and performed specifically with women of color in ASU’s Dance program with the choreographic process discussed in detail, along with key takeaways about facilitating a multi-dimensional experience for the dancers and choreographer. Future directions for the work include working with intergenerational populations and researching community effects on gendered aging experiences across cultures in the dance world.
Part 1 characterizes soiling losses using various techniques to understand the effect of soiling on photovoltaic modules. The higher the angle of incidence (AOI), the lower will be the photovoltaic (PV) module performance. Our research group has already reported the AOI investigation for cleaned modules of five different technologies with air/glass interface. However, the modules that are installed in the field would invariably develop a soil layer with varying thickness depending on the site condition, rainfall and tilt angle. The soiled module will have the air/soil/glass interface rather than air/glass interface. This study investigates the AOI variations on soiled modules of five different PV technologies. It is demonstrated that AOI effect is inversely proportional to the soil density. In other words, the power or current loss between clean and soiled modules would be much higher at a higher AOI than at a lower AOI leading to excessive energy production loss of soiled modules on cloudy days, early morning hours and late afternoon hours. Similarly, the spectral influence of soil on the performance of the module was investigated through reflectance and transmittance measurements. It was observed that the reflectance and transmittances losses vary linearly with soil density variation and the 600-700 nm band was identified as an ideal band for soil density measurements.
Part 2 of this thesis performs statistical risk analysis for a power plant through FMECA (Failure Mode, Effect, and Criticality Analysis) based on non-destructive field techniques and count data of the failure modes. Risk Priority Number is used for the grading guideline for criticality analysis. The analysis was done on a 19-year-old power plant in cold-dry climate to identify the most dominant failure and degradation modes. In addition, a comparison study was done on the current power plant (framed) along with another 18-year-old (frameless) from the same climate zone to understand the failure modes for cold-dry climatic condition.
Characterization and analysis of long term field aged photovoltaic modules and encapsulant materials
Clarinet method books and treatises were studied to determine which fundamental concepts to include and to find established teaching techniques recommended by pedagogues. Pre-collegiate clarinet instructors were surveyed to determine which pieces of clarinet repertoire were frequently studied in their private lesson curriculum and why, and if they used specific pieces in order to isolate a fundamental skill. Literature found in repertoire lists, repertoire books, on-line catalogs, and from the survey results was examined. Repertoire was selected for inclusion if it contained passages that were analogous to the established teaching strategies.
Part 1 of this thesis determines the most dominant failure modes of field aged photovoltaic (PV) modules using experimental data and statistical analysis, FMECA (Failure Mode, Effect, and Criticality Analysis). The failure and degradation modes of about 5900 crystalline-Si glass/polymer modules fielded for 6 to 16 years in three different photovoltaic (PV) power plants with different mounting systems under the hot-dry desert climate of Arizona are evaluated. A statistical reliability tool, FMECA that uses Risk Priority Number (RPN) is performed for each PV power plant to determine the dominant failure modes in the modules by means of ranking and prioritizing the modes. This study on PV power plants considers all the failure and degradation modes from both safety and performance perspectives, and thus, comes to the conclusion that solder bond fatigue/failure with/without gridline/metallization contact fatigue/failure is the most dominant failure mode for these module types in the hot-dry desert climate of Arizona.
Part 2 of this thesis determines the best method to compute degradation rates of PV modules. Three different PV systems were evaluated to compute degradation rates using four methods and they are: I-V measurement, metered kWh, performance ratio (PR) and performance index (PI). I-V method, being an ideal method for degradation rate computation, were compared to the results from other three methods. The median degradation rates computed from kWh method were within ±0.15% from I-V measured degradation rates (0.9-1.37 %/year of three models). Degradation rates from the PI method were within ±0.05% from the I-V measured rates for two systems but the calculated degradation rate was remarkably different (±1%) from the I-V method for the third system. The degradation rate from the PR method was within ±0.16% from the I-V measured rate for only one system but were remarkably different (±1%) from the I-V measured rate for the other two systems. Thus, it was concluded that metered raw kWh method is the best practical method, after I-V method and PI method (if ground mounted POA insolation and other weather data are available) for degradation computation as this method was found to be fairly accurate, easy, inexpensive, fast and convenient.