Personnel and the Library School

published or submitted for publicatio

Influence of Gender Appropriateness of Sex-Role and Occupational Preferences on Evaluations of a Competent Person

Previous research has found that while masculine sex-role preferences are more highly valued, persons holding gender consistent sex-role preferences generally are rated as more attractive. The present study explores the interactive effect of gender consistent/inconsistent sex-role preferences and congruent/incongruent occupational choices on evaluations of a person from varying perspectives. Statistical analysis of the data revealed (1) people holding masculine sex-role preferences are perceived to have a higher motivation to succeed, and to be more competent; (2)from the perspective of friend and potential employee, persons holding gender consistent sex-role preferences are perceived as more attractive; (3) from the perspective of potential employer, there is a tendency for males to prefer employees who hold masculine sex-role preferences, while females continue to prefer gender consistent sex-role preferences

Irreversibility and Entanglement Spectrum Statistics in Quantum Circuits

We show that in a quantum system evolving unitarily under a stochastic quantum circuit the notions of irreversibility, universality of computation, and entanglement are closely related. As the state evolves from an initial product state, it gets asymptotically maximally entangled. We define irreversibility as the failure of searching for a disentangling circuit using a Metropolis-like algorithm. We show that irreversibility corresponds to Wigner-Dyson statistics in the level spacing of the entanglement eigenvalues, and that this is obtained from a quantum circuit made from a set of universal gates for quantum computation. If, on the other hand, the system is evolved with a non-universal set of gates, the statistics of the entanglement level spacing deviates from Wigner-Dyson and the disentangling algorithm succeeds. These results open a new way to characterize irreversibility in quantum systems.Comment: 15 pages, 4 figure

Safety, the Preface Paradox and Possible Worlds Semantics

This paper contains an argument to the effect that possible worlds semantics renders semantic knowledge impossible, no matter what ontological interpretation is given to possible worlds. The essential contention made is that possible worlds semantic knowledge is unsafe and this is shown by a parallel with the preface paradox

Stability of bromine, iodine monochloride, copper (II) chloride, and nickel (II) chloride intercalated pitch-based graphite fibers

Four different grades of pitch-based graphite fibers (Amoco P-55, P-75, P-100. and P-120) were intercalated with each of four different intercalates: bromine (Br2), iodine monochloride (ICl), copper (II) chloride (CuCl2), and nickel (II) chloride (NiCl2). The P-55 fibers did not react with Br2 or NiCl2, and the P-75 did not react with NiCl2. The stability of the electrical resistance of the intercalated fibers was monitored over long periods of time in ambient, high humidity (100 percent at 60 C), vacuum (10 to the -6 torr), and high temperature (up to 400 C) conditions. Fibers with lower graphitization form graphite intercalation compounds (GIC's) which are more stable than those with higher graphitization (i.e., P-55 (most stable) greater than P-75 greater than P-100 greater than P-120 (least stable). Br2 formed the most stable GIC's followed in order of decreasing stability by ICl, CuCl2, and NiCl2. While Br2 GIC's had the most stability, ICl had the advantages of forming GIC's with slightly greater reduction in resistance (by about 10%) than Br2, and the ability to intercalate P-55 fiber. Transition metal chlorides are susceptible to water vapor and high temperature. The stability of fibers in composites differs

Wetland Biogeochemical Responses to Predicted Climate Change Scenarios

Wetlands are one of the world\u27s largest known carbon sinks while comprising only a small amount of the Earth\u27s surface. However, the amount of carbon sequestered by wetlands is shrinking as droughts and human disturbance increases. Carbon in wetlands is stored through the contrast of decomposition and sedimentation of organic matter and absorption of CO2 from the atmosphere by soil microbes. Understanding how changing hydrological regimes and increased wildfires will affect wetland soil and microbial processes is important in the face of predicted climate change for future wetland conservation practices. Specifically, I seek to understand the response of southeastern coastal plain wetland soils to the interaction of prescribed burns and variable hydrological conditions through the use of large-scale experimental ponds. By manipulating wetland flood duration, I was able to compare wetland soils that 1) were continuously dry, 2) were continuously flooded, or 3) were flooded and allowed to gradually recede in combination with prescribed burns prior to all flooding. I predicted that wetland soils and soil microbial biomass would respond positively to recede treatments compared to dry and flooded treatments and burned wetlands would have higher microbial biomass than not burned. Immediately following the burn and prior to flooding, I recorded a reduction in soil microbial biomass nitrogen, soil pH, and soil C:N. When assessed, soil microbial biomass carbon was found to be higher in both flooded and receding treatments compared to dry with the prescribed burn having no effect for the duration of the study. Results suggest that the prescribed burn was not intense enough to have lasting effects on wetland soils, though the addition of nutrients post-burn can take time to process through the system. Soil microbial biomass estimates were opposite to my predictions, suggesting that the amount of disturbance the soils experience is a more important driver of microbial biomass than optimal conditions for microbes (i.e., warm/wet). The results of my thesis address knowledge gaps that will help guide future studies examining the response of wetland soils to climate change