Glass: the Material that Defines Us

This Honors Project is an exploration of the intersections between glass science, geology, glass art, and my own personal experience with glass

Lightsolve Tutorial

This document contains information about how to install Lightsolve, how to create a SketchUp model which is recognizable by Lightsolve, how to run the renderer and how to navigate the Lightsolve interface. It also contains tips for troubleshooting known problems

Ocean drilling perspectives on meteorite impacts

Extraterrestrial impacts that reshape the surfaces of rocky bodies are ubiquitous in the solar system. On early Earth, impact structures may have nurtured the evolution of life. More recently, a large meteorite impact off the Yucatán Peninsula in Mexico at the end of the Cretaceous caused the disappearance of 75% of species known from the fossil record, including non-avian dinosaurs, and cleared the way for the dominance of mammals and the eventual evolution of humans. Understanding the fundamental processes associated with impact events is critical to understanding the history of life on Earth, and the potential for life in our solar system and beyond. Scientific ocean drilling has generated a large amount of unique data on impact processes. In particular, the Yucatán Chicxulub impact is the single largest and most significant impact event that can be studied by sampling in modern ocean basins, and marine sediment cores have been instrumental in quantifying its environmental, climatological, and biological effects. Drilling in the Chicxulub crater has significantly advanced our understanding of fundamental impact processes, notably the formation of peak rings in large impact craters, but these data have also raised new questions to be addressed with future drilling. Within the Chicxulub crater, the nature and thickness of the melt sheet in the central basin is unknown, and an expanded Paleocene hemipelagic section would provide insights to both the recovery of life and the climatic changes that followed the impact. Globally, new cores collected from today’s central Pacific could directly sample the downrange ejecta of this northeast-southwest trending impact. Extraterrestrial impacts have been controversially suggested as primary drivers for many important paleoclimatic and environmental events throughout Earth history. However, marine sediment archives collected via scientific ocean drilling and geochemical proxies (e.g., osmium isotopes) provide a long-term archive of major impact events in recent Earth history and show that, other than the end-Cretaceous, impacts do not appear to drive significant environmental changes

Separately, Connectedly: Exploring Trauma Through Ekphrasis in Contemporary Novels

This thesis examines ekphrasis as a rhetorical tool to explore, represent, and contemplate trauma affect in contemporary novels. From the Greek phrase for ‘description,’ ekphrasis is part of a long and ancient literary tradition, dating as far back as the ancient depictions of art on urns, weaponry, as well as more disambiguated descriptions of scenes and people. The uses of ekphrasis as a literary device are broad and complex, but its use is under-researched in contemporary novels, and there is a near total absence of investigation into ekphrasis within the novel as a means of contemplating and understanding the affect of a condition that is inherently abstract and disorienting.Literary trauma theory has evolved considerably in recent years. In keeping with important findings in psychology and psychiatric research, there is a broad recognition that rethinking trauma representation beyond the recitation and reliving of events and into textured descriptions of trauma affect is essential for thoughtful, nuanced explorations of an experience that resists narrative convenience. As a result, there are increased calls to accept and represent its inherent fractured nature and resist the authorial temptation to forge a story around it that fits neatly into a cohesive whole. This thesis proposes a framework for considering how various aspects of ekphrastic descriptions of real and imagined art as well as their connotative and denotative significance in the novel reveals nuance in the representation of trauma affect through the activation of language and image. The contemporary novels explored herein are: The Goldfinch by Donna Tartt, What I Loved by Siri Hustvedt, and How to Be Both by Ali Smith. Each of these novels present ekphrasis and affect differently, which enables broader testing of the flexibility of the proposed framework

Annual Meeting of the Lunar Exploration Analysis Group : November 1-3, 2016, Columbia, Maryland

The meeting goals are three-fold: 1. Integrate the perspectives and interests of the different stakeholders (science, engineering, government, and private sector) to explore common goals of lunar exploration. 2. Use the results of recent and ongoing missions to examine how science enables exploration and exploration enables science. 3. Provide a forum for community updates and input into the issues that affect lunar science and exploration.NASA Lunar Exploration Analysis Group (LEAG) Lunar and Planetary Institute (LPI) Universities Space Research Association (USRA) National Aeronautics and Space Administration (NASA) NASA Solar System Exploration Research Virtual Institute (SSERVI)Organizing Committee, Clive Neal, Convener, University of Notre Dame, Stephen Mackwell, Convener, Universities Space Research Associatio

Lateritic palaeosols of N.E. Africa: a remote sensing study

Remote sensing data and image processing techniques are used increasingly to aid scientific investigation and address geological problems in areas that are difficult to map by conventional methods. This thesis explores how multi spectral satellite data, supported by traditional geological techniques, facilitate a study of lateritic palaeosols. The work centres on laterites, which are thin but important elements of the Phanerozoic stratigraphy of NE Africa. They immediately pre-date midOligocene flood basalts and, if mapped, can be used to delineate a flood basalt-Iaterite contact and define the pre-30 Ma African Surface and uplift patterns. They have important engineering properties and are key to understanding basement alteration and its associated mineralization. They affect agriculture and groundwater quality and retention - essential in Sub-Saharan Aflica where access to safe water is limited. They dominate the landscape, yet are unmapped and marginalised in the literature. Their geological context supports a laterite-focused remote sensing mapping strategy. A strategy for geologic mapping of laterites based on their simple mineralogy and spectral characteristics that distinguish them from other rocks is developed. Methods for mapping are presented using Earth Observation data. The outcome is a series of regional geological maps of Eritrea and Ethiopia. These reveal that laterite cover is more extensive than previously thought and enable further lines of research. The maps provide a means of regional dating of laterites, which, together with ages obtained for overlying flood basalts and new basement cooling ages, indicate a major planation during the Palaeozoic and constrain the timing of associated uplift and erosion. A regional review of Mesozoic-Cenozoic climatic, strati graphic and structural evolution is presented and a model of Neogene deformation of the lateriteflood basalt datum is produced. Finally, laterite maps, petrographic and geochemical evidence are used to access basic essentials of life: clean water, a safe environment and a sustainable economy

Bentonite geochronology and tephrostratigraphy for litho- and chronostratigraphic refinement of fossiliferous Campanian strata in western North America

Tegan Beveridge studied weathered volcanic ash horizons within Late Cretaceous rocks in western North America. New high-precision ages and geochemical data facilitated correlation of richly fossiliferous rock units across the continent. Refined understanding of these rocks has implications for investigating dinosaur biogeography and Late Cretaceous ecosystems from Alberta to Mexico

The Development of Sustainable Hydrometallurgical Processes for the Recovery of Precious Metal

The study investigates the utilization of cedar wood bark as bioadsorbent for the adsorption and simultaneous precipitation of gold as flakes. This is with a view to establishing the electrochemical study of the adsorption and evaluate pre-treated cedar wood bark as possible adsorbent for gold in various solutions. The research plan for this project is divided into two parts. Part one focuses on understanding the adsorption of gold using the cedar wood bark as adsorbent. The second part focuses on the electrochemical study of the redox reaction during adsorption process using cyclic voltammetry technique. Synthetic solution of gold is prepared with dissolution of gold (III) chloride in hydrochloric acid, sodium thiosulfate and sodium thiourea lixiviants. Cedar wood bark is pre-treated with dilute and concentrated sulfuric acid under various experimental conditions to obtain three bioadsorbents, dilute-air dried (D-AD), concentrated washed-air dried (CW-AD) and concentrated not washed-oven dried (CNW-OD). The gold solutions are electrochemically tested for redox reaction using cyclic voltammetry (CV) techniques. One-point adsorption test is carried out on the various gold solutions to determine the suitable samples for the research. The outcome of the CV experiment indicates that redox reaction of gold in hydrochloric acid medium is easily measured through the anodic and cathodic peak formation. The one-point adsorption test favors the use of D-AD as adsorbent in acidic gold solution with percentage adsorption of 99.999%. Hence, the research is narrowed down to the use of D-AD adsorbent and acidic gold solution. Solid/liquid ratio and hydrochloric acid concentration tests indicate that 1.5 and 0.5 M, respectively, are the best suitable for the research. For the kinetic study of the adsorption process at temperatures of 298, 303 and 313 K in 96 hours, pseudo-second order model has determination coefficients of 0.988, 0.996 and 0.998, respectively, while the pseudo-first order model has determination coefficients of 0.91, 0.77 and 0.62 at those three different temperatures. Hence, the adsorption process follows the pseudo-second order model. The activation energy from the pseudo-second order rate constant indicates that the process is chemisorption with a value of 59.86 kJ/mol. The adsorption isotherm is found to follow Freundlich isotherm model, which might have favored the formation of gold flakes on the adsorbent. The CV experiment shows the disappearance of anodic peaks as the adsorption of gold progresses, which is an indication of reduction reaction synonymous to adsorption process. X-ray diffractometer (XRD) and Fourier transform infrared (FTIR) instruments were used to determine the presence of gold precipitates and the spectra obtained from the two experiments confirm the presence of gold. In conclusion, the study established cedar wood bark as a potential source of biomass for adsorption of gold (III) ions from acidic chloride solution, and that cyclic voltammetry (CV) technique was successfully used to examine the adsorption process