Presence of Uncertainty in Friendships: A study on Morocco and the United States

University Honors Capstone Project Paper, University of Minnesota Duluth, 2017. Advisor: Dr. Ryan Goei. Submitted in 2018 in partial fulfillment of the requirements of the Student Project for Amity among Nations (SPAN), as organized under Foreign Studies Seminar Program 5970W (Writing Intensive) at the University of Minnesota. This project was completed in accordance with the Institutional Review Board Study Number 1203S12061.This study seeks to understand how culture influences people’s level of uncertainty and information seeking strategies in interpersonal relationships. The general premise is cultures experience different levels of uncertainty and, therefore, the uncertainty reduction theory can be observed in different ways. Hypotheses were formed regarding how aspects of culture may change the level of uncertainty and information seeking present in Morocco and the United States. A study was conducted through the distribution of a survey asking questions about friendships between Moroccan students (N=25), and friendships between American students (N=46). It was found that American students have more certainty, and use the interactive information seeking strategy more, than Moroccan students. Furthermore, certainty within friendship leads to more direct and interactive information seeking strategies. Relationship length was positively associated with more certainty in friendships, as was relationship closeness. The authors conclude the study by discussing how these findings influence the future research of culture and the uncertainty reduction theory

Fordelen af store Køer i Meierier, sammenlignet med den af smaa, og om Udbyttet af Giødning i Forhold til det givne Foderqvantum.

Fordelen af store Køer i Meierier, sammenlignet med den af smaa, og om Udbyttet af Giødning i Forhold til det givne Foderqvantum

Scanning Electron Microscopy Analysis of Murine Renal, Aortic, and Cardiac Tissue

Scanning electron microscopy (SEM) is a tool that provides detailed insight into objects invisible to the human eye. As the name suggests, an electron beam is used to create an image down to the nanometer scale. The beam focuses on the surface of a sample using lenses in the electron column. In this project, we use SEM to study three types of murine tissue. First, we examine the glomerulus, found in the kidney, that is primarily responsible for filtering blood. Following a left renal vein (LRV) stenosis, SEM is used to observe changes to the glomeruli. Differences in the left and right kidney glomeruli are noted, with glomeruli appearing intact from the right kidney, while glomeruli from the left kidney are broken down. These findings are vital for preeclampsia studies, where these glomerular changes are likely a result of renal ischemia induced by the LRV stenosis. Second, cross sections of the murine descending aorta with a type B aortic dissection are examined under SEM. High magnification images reveal the morphology of red blood cell types in the false lumen. These findings will be used for studies in evaluating medical interventions for aortic dissection. Third, we examine tissue from the left ventricle and atrium of the murine heart. SEM can be used to detect if hypertrophy caused by transverse aortic constriction causes changes to cells lining the endocardium. This project demonstrates that SEM provides high resolution and magnification images, revealing new information that is pivotal to current and future biomedical studies

Spectroscopic parameters for silacyclopropynylidene, SiC2_2, from extensive astronomical observations toward CW Leo (IRC +10216) with the Herschel satellite

A molecular line survey has been carried out toward the carbon-rich asymptotic giant branch star CW Leo employing the HIFI instrument on board of the Herschel satellite. Numerous features from 480 GHz to beyond 1100 GHz could be assigned unambiguously to the fairly floppy SiC$_2$ molecule. However, predictions from laboratory data exhibited large deviations from the observed frequencies even after some lower frequency data from this survey were incorporated into a fit. Therefore, we present a combined fit of all available laboratory data together with data from radio-astronomical observations.Comment: 7 pages, 1 figure, J. Mol. Spectrosc., appeared; CDMS links corrected (version 2; current version: 3; may be updated later this year

A line confusion limited millimeter survey of Orion KL. II: Silicon-bearing species

We present a study of the Silicon-bearing species detected in a line confusion limited survey towards Orion KL performed with the IRAM 30-m telescope, which ranges from 80 to 280 GHz. Our aim is to derive physical and chemical conditions for each family taking into account all observed lines from all isotopologues of each species. We have modeled the lines of the detected molecules using a radiative transfer code, which permit us to choose between LVG and LTE approximations depending on the physical conditions of the gas. We have used appropriate collisional rates for the LVG calculations. For the v=1 state of SiO we have detected the J=2-1 line and, for the first time in this source, emission in the J=4-3 transition, both of them showing strong masering effect. For SiO v=0, we have detected 28SiO, 29SiO, and 30SiO; in addition, we have mapped the J = 5-4 SiO line. For SiS, we have detected the main species, 29SiS, and SiS v=1. Unlikely other species detected in Orion KL (IRc2), the emission peak of SiS appears at a velocity of ~15.5 km s-1; a study of the 5-4 SiO line around IRc2 shows this feature as an extended component that probably arises from the interaction of the outflow with the ambient cloud. We derive a SiO/SiS column density ratio of ~13 in the plateau component. Besides, we provide upper limits to the column density of several non-detected Silicon-bearing species. The results of our chemical models show that while it is possible to reproduce SiO in the gas phase (as well as on the grains), SiS is a product of surface reactions, most likely involving direct reactions of S with Si.Comment: Astronomy and Astrophysics, in pres

Building Partnerships to Address Social and Technological Challenges to Enhance Farm Profitability and Improve Water Quality Through Better Grassland Management

With 2.1 million acres of pastureland and 1.25 million acres of hay land in Virginia, the rural Virginia landscape is predominately grassland. These lands form the base of the $3.96 billion-dollar livestock and dairy industry in Virginia. Managing these livestock in a profitable manner for farmers and beneficial to the environment is important. A cultural tradition with roots in colonial times has been to run animals in large fields year-round throughout Virginia. Livestock often graze from spring until fall (about 220 days), and farmers feed hay the remainder of the year. Spikes in the cost of fuel, fertilizer, and equipment are making traditional grazing/haying systems less profitable. The Virginia Cooperative Extension Farm Enterprise budgets show that that the cost of hay accounts for over 50$75 per cow by extending their grazing season. The same phenomenon applies to other types of grazing livestock. If ten percent of the livestock producers in the state adopted better grazing management to extend their grazing season by 60 days, profitability is expected for Virginia grazing livestock producers by over $5 million per year. Practices such as rotational grazing and stream exclusion are directly tied to National and State goals to improve water quality in the Chesapeake Bay. Virginia’s Phase III WIP (Chesapeake Bay Watershed Improvement Plan) seeks the exclusion of livestock from all perennial streams and achieving good rotational grazing practices on 347,000 acres of pasture. A number of agencies and private sector groups have been providing cost share and technical guidance to incentivize livestock stream exclusion and the installation of pasture management infrastructure. Installation is only part of the challenge. Farmers also need to be taught how to how to manage the system in a profitable manner and have been slow to adopt good pasture management practices. Preliminary data show that 87% of Virginia’s cow-calf producers manage their grasslands using traditional methods. Only six percent have extended their grazing season beyond 265 days