Master of Science

thesisThe objective of this study was the examination of erosion rates of tungsten carbide using a high velocity slurry flow where the velocity, impingement angle, and number of particles are controlled. The apparatus used for these experiments was an impinging jet of high velocity slurry flow of silicon carbide particles. The fluid velocity in this study was varied from 70 - 200 ft/sec and the impingement angle was varied from 10-90 degrees. Five grades of tungsten carbide were examined along with a control batch of 1018 mild steel. The erosion was caused by silicon carbide particles of 280 and 320 mesh densities. The results of the study were plotted using a calculated erosion coefficient that was defined as the ratio of the mass of material removed from the samples divided by the mass of silicon carbide particles. Algebraic equations in terms of velocity and impingement angle were determined that fit the experimental data

Coming Together Through Object Based Learning in a Pandemic

In the summer of 2019, three history teachers from all over the US, met in France for National History Day’s Memorializing the Fallen program and commenced a lasting friendship. While in France, touring the WWI cemeteries, memorial sites, and museums, we all realized the importance of experience-based learning and the seeds were sown for our interest in object based learning. Aside from the philosophical and pedagogical discussions on long bus rides and our passion for history, we shared a belief in the importance of revitalizing history education and helping it to evolve in the face of our twenty-first century world. When we returned back from France we kept in touch and continued to think of ways we could collaborate and work together. Covid-19 provided us that opportunity. With history education and teachers in general having to become more familiar with Google Meets, Zoom, and other video based platforms we decided to get together and have a Zoom session. As we talked and discussed what each of us were doing we found that we all to varying degrees believe in and utilize object based learning in our classrooms. We decided that other teachers could benefit from using objects in their classrooms. So, we decided we would model the technique and lines of questioning that go into using objects in a classroom. For this journal we would like to discuss how we came together, our passion for object based learning, and how, despite the disruption COVID-19 brought to all of our school years and classes, it also provided us the opportunity to come together and create content and resources that could help teachers now and whenever we get back into the classroom

Inverse perturbation method for structural redesign with frequency and mode shape constraints

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76581/1/AIAA-8777-705.pd

Nonlinear incremental inverse perturbation method for structural redesign

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76715/1/AIAA-1983-892-392.pd

Using climatology to predict the first major summer corn earworm (Lepidoptera: Noctuidae) catch in north central Illinois

One of the largest food production companies in the United States, with sales in the billions of dollars, must closely monitor anything that may affect their vegetable crops. This includes harmful insects, such as the corn earworm (CEW) (Helicoverpa zea), that can reduce sweet corn yields and cause losses of approximately 12 million dollars annually in the Midwest. For this study, a major sweet corn production area located in north central Illinois was used to evaluate CEW moth flight characteristics. The initial major CEW catch (i.e. when 10 or more CEWs were caught in a field trap within a 24 h period) occurs on average around 20 August. However, during the period from 1960 to 2005 the first major catch occurred between 1 August and 16 September. If climatological information can be used to anticipate the initial major CEW arrival, then pest management strategies can be better implemented and field losses reduced. Seven of 13 years with an early first major CEW arrival (1 to 15 August) occurred when accumulated growing degree days (GDDs with a base of 10 °C) were >917 and the number of warm nights (minimum temperatures ≥18.3 °C) was above average (>21 days) from 1 May to 31 July, while 7 of 13 years with a late first major CEW arrival (24 August to 16 September) occurred when accumulated GDDs <853, the number of warm nights was <18 days, and the number of days with an average air flow from the south was <30 between 1 May and 31 July

Kuujjua River Arctic Char: Monitoring Stock Trends Using Catches from an Under-Ice Subsistence Fishery, Victoria Island, Northwest Territories, Canada, 1991 – 2009

A standardized, harvest-based monitoring program was conducted during the main under-ice subsistence fishery for Arctic char (Salvelinus alpinus) of the Kuujjua River for 18 winter fishing seasons between 1991 and 2009. The program was a response to the concern of Ulukhaktok residents that Arctic char were becoming fewer in number and smaller in size. Mean harvests averaged 1225 (SD 262) Arctic char annually for 1996–2002 and 568 (SD 274) in 2003–09, or roughly 40% and 20% of the harvest levels estimated for 1971–78 (2900, SD 842) and 1988–92 (2943, SD 1072). There was no statistical relationship between the size of the annual harvest (number of fish), and the corresponding mean annual catch per unit effort (CPUE) value (R2 = 0.0141, p = 0.761). Arctic char were fully recruited to the fishery at age nine, with 82.4% of the sampled catch (n = 3288) ranging between 8 and 12 years and composed almost exclusively (99%) of non-spawning adults. Over the time series, temporal trends were not detected (p &gt; 0.05) in mean annual CPUE (27.3 Arctic char/100 m/24 h, SD 14.15), mean fork length (593 mm, SD 78.1), or mean age (9.9 years, SD 2.0). Annual mortality rate showed a weak, but significant, decreasing trend over the series (R2 = 0.354), and there were no statistical trends in annual values of the Brody growth coefficient (R2 = 0.1337, p = 0.164). Variation in mean annual somatic condition indices was correlated with timing of sea ice clearance in spring (R2 = 0.474, p = 0.002), probably because prey quality, quantity, or both are higher in summers following earlier spring blooms in the marine environment. Together, the absence of temporal trends in CPUE, fork length, and age of the harvested fish and the apparent improvement in survival (lower mortality), suggest that the stock has been stable at the harvest levels observed during the monitoring period. The stock may also be realizing some improved fitness, which is due to changes in environmental productivity and appears to be linked, at least in part, to the timing of spring breakup in eastern Amundsen Gulf.Entre 1991 et 2009, pendant 18 saisons de pêche hivernale, un programme de surveillance standardisé axé sur les récoltes a été réalisé quant à la pêche de subsistance principale d’omble chevalier (Salvelinus alpinus) sur la rivière Kuujjua. Ce programme a été mis en oeuvre à la lumière des inquiétudes exprimées par les résidents d’Ulukhaktok qui affirmaient que le nombre d’ombles chevaliers diminuait, tout comme leur taille. De 1996 à 2002, la récolte moyenne d’ombles chevaliers atteignait 1 225 (SD 262) annuellement, tandis que de 2003 à 2009, la récolte moyenne annuelle s’élevait à 568 (SD de 274), soit environ 40 % et 20 % des récoltes évaluées pour les années 1971 à 1978 (2 900, SD de 842) et les années 1988 à 1992(2 943, SD de 1 072). Il n’existait pas de lien statistique entre la taille de la récolte annuelle (le nombre de poissons) et la valeur de la capture par unité d’effort (CPUE) moyenne annuelle correspondante (R2 = 0,0141, p = 0,761). L’omble chevalier était pleinement recruté à la pêche à l’âge de neuf ans, avec 82,4 % de la capture échantillonnée (n = 3288) variant entre huit et 12 ans, et composée presque exclusivement (99 %) d’adultes non encore reproducteurs. Au fil des séries, aucune tendance temporelle n’a été décelée (p &gt; 0,05) sur le plan de la CPUE moyenne annuelle (27,3 ombles chevaliers/100 m/24 h, SD 14,15), de la longueur moyenne à la fourche (593 mm, SD 78,1) ou de l’âge moyen (9,9 ans, SD 2,0). Le taux de mortalité annuel indiquait une tendance à la baisse à la fois faible mais importante au cours des séries (R2 = 0,354), et il n’y avait pas de tendances statistiques du point de vue des valeurs annuelles du coefficient de croissance de Brody (R2 = 0,1337, p = 0,164). Une corrélation a été établie entre l’écart des indices somatiques annuels moyens et le moment du dégagement de la glace de mer au printemps (R2 = 0,474, p = 0,002), probablement parce que la qualité ou la quantité de proies, ou les deux, est plus élevée au cours des étés qui suivent une prolifération printanière hâtive dans l’environnement marin. Ensemble, l’absence de tendances temporelles relatives à la CPUE, à la longueur à la fourche et à l’âge du poisson récolté et l’amélioration apparente de la survie (mortalité plus faible) suggèrent que le stock était stable aux niveaux de récolte observés pendant la période de surveillance. Par ailleurs, il se pourrait que le stock connaisse une valeur d’adaptation quelque peu améliorée, ce qui est attribuable aux changements caractérisant la productivité environnementale et semble lié, tout au moins en partie, au moment de la débâcle du printemps dans l’est du golfe Amundsen

Plastic Adaptation: A Neuronal Imperative Capable of Confounding the Goals of Stem Cell Replacement Therapy for either Huntington’s or Parkinson’s Disease

Although stem cell transplant therapy offers considerable promise for deteriorative diseases, the efficacy of its application may be mitigated by endogenous compensatory mechanisms in the host brain. Plastic compensation follows neurodegeneration, beginning at its very onset and minimizing early symptom expression. As researchers attempt to correlate symptom remission with the ability of transplanted cells to adopt specific cell phenotypes, they need to be vigilant of the possibility that competing, local compensatory effects may be altering the outcome. Clearly plastic compensatory mechanisms could confound desired transplant-derived improvements by supplanting the beneficial contributions of the transplants. As circuit-level adaptations occur, more explicit explorations of their relevance to neuronal transplantation success are needed. Conceptual models of undirected transplanted cells adopting preconceived appropriate roles require revision. The notion that newly transplanted neuronal precursors will incorporate themselves into host circuitry with mutual cooperation across both parties (i.e., transplant and host) without some symbiosis-promoting mechanism is naïve. Undirected local circuits could react to newly transplanted additions as intruders. We advocate that appropriate signaling from transplanted cells to the host environment is required to optimize the therapeutic relevance of transplantation. This review surveys critical signaling mechanisms that might promote symbiotic interdependence between the host and new transplants

Numerical Simulations of Supernova Dust Destruction. II. Metal-Enriched Ejecta Knots

Following our previous work, we investigate through hydrodynamic simulations the destruction of newly-formed dust grains by sputtering in the reverse shocks of supernova remnants. Using an idealized setup of a planar shock impacting a dense, spherical clump, we implant a population of Lagrangian particles into the clump to represent a distribution of dust grains in size and composition. We vary the relative velocity between the reverse shock and ejecta clump to explore the effects of shock-heating and cloud compression. Because supernova ejecta will be metal-enriched, we consider gas metallicities from Z/Zsun = 1 to 100 and their influence on cooling properties of the cloud and the thermal sputtering rates of embedded dust grains. We post-process the simulation output to calculate grain sputtering for a variety of species and size distributions. In the metallicity regime considered in this paper, the balance between increased radiative cooling and increased grain erosion depends on the impact velocity of the reverse shock. For slow shocks (velocity less than or equal to 3000 km/s), the amount of dust destruction is comparable across metallicities, or in some cases is decreased with increased metallicity. For higher shock velocities (velocity greater than or equal to 5000 km/s), an increase in metallicity from Z/Zsun = 10 to 100 can lead to an additional 24% destruction of the initial dust mass. While the total dust destruction varies widely across grain species and simulation parameters, our most extreme cases result in complete destruction for some grain species and only 44% dust mass survival for the most robust species. These survival rates are important in understanding how early supernovae contribute to the observed dust masses in high-redshift galaxies.Comment: 10 pages, 6 figures, 2 tables, changes made to the text and figures as suggested by the anonymous referee, accepted by the Astrophysical Journa