The Importance of Business Plan Proficiency to Business School Graduates

Small businesses are one of the largest groups of employers in the United States. Success of these businesses is, therefore, very important to the economy at large. Entrepreneurs who write business plans, in general, receive more funding from third parties such as banks and venture capital firms and are more likely to be successful. Entrepreneurs who receive a business education and have the support of a mentor are also more likely to be successful in the long term. Incorporating business planning, and activities such as business plan competitions and building incubators on campus, enhance classroom learning

Modeling Electrochemical Oxidation of Hydrogen on Ni–YSZ Pattern Anodes

A computational model is developed to represent the coupled behavior of elementary chemistry, electrochemistry, and transport in the vicinity of solid-oxide fuel cell three-phase boundaries. The model is applied to assist the development and evaluation of H_2 charge-transfer reaction mechanisms for Ni–yttria-stabilized zirconia (YSZ) anodes. Elementary chemistry and surface transport for the Ni and YSZ surfaces are derived from prior literature. Previously published patterned-anode experiments [J. Mizusaki et al., Solid State Ionics, 70/71, 52 (1994)] are used to evaluate alternative electrochemical charge-transfer mechanisms. The results show that a hydrogen-spillover mechanism can explain the Mizusaki polarization measurements over wide ranges of gas-phase composition with both anodic and cathodic biases

Entry-Level Workplace Competencies Needed by Graduates of a Community College Agriculture Program: A Midwest Case Study Using the Delphi Technique

Community colleges have a strong history of providing vocational education and occupational training to meet changing workforce demands of local industries. In the Midwest, agricultural industries have expressed an expanding need for middle-skilled workers with postsecondary, prebaccalaureate credentials. The 21st century agricultural landscape has changed as a result of the need for efficiency and sustainability, and resulting emergent agricultural technologies. Community colleges will be integral to establishing a qualified agriculture workforce for entry-level, middle-skilled positions. This study utilized a modified Delphi approach to identify entry-level workplace competencies needed by graduates of a community college agriculture program. Delphi panel experts represented leaders from the agronomy-based agriculture industry within the college’s district, and initially identified 87 desired workforce competencies. Fifty-eight competencies achieved consensus from the Delphi panel and were categorized by themes: soft skills (26), agronomy-based technical skills (12), technology-based technical skills (9), agriculture mechanic/operator-based technical skills (3), general technical skills (4), and agribusiness-based technical skills (4). Results of this study can be used to inform community college agriculture program development and can be used as a case study for assessing workforce needs of local agricultural industries

The nucleotide and partial amino acid sequences of rat fetuin

Fetuins are among the major plasma proteins, yet their biological role has remained elusive. Here we report the molecular cloning of rat fetuin and the sequence analysis of a full-length clone, RF619 of 1456 bp with an open reading frame of 1056 bp encoding 352 amino acid residues. The coding part of RF619 was identical with the cDNA sequence of the natural inhibitor of the insulin receptor tyrosine kinase from rat (pp63) except for four substitutions and a single base insertion causing divergence of the predicted protein sequences. Partial amino acid sequences of rat plasma fetuin were in agreement with the predictions based on the RF619 cDNA. Purified rat fetuin inhibited the insulin receptor tyrosine kinase in vitro. Therefore, we conclude that RF619 and pp63 cDNA encode the same protein, i.e. authentic rat fetuin which is a functional tyrosine kinase inhibitor

A Midwest Perspective on Biochar Integration in Extension

Biochar can be considered a climate-smart, agricultural soil amendment due to its ability to provide long-term storage of carbon. Research examining the impacts of biochar-enriched soils reported improved soil characteristics often leading to agricultural benefits, especially in nutrient-poor soils. Despite the potential use of biochar in the Midwest, United States, few studies have examined biochar in Extension. This study, guided by the Theory of Reasoned Action, used survey methodology to collect information on Midwest Extension agents’ (n = 125) knowledge, attitudes, and subjective normative beliefs toward biochar. These factors, along with agents’ demographics and perceptions toward sustainable soil amendments, were used to predict agents’ future intent to incorporate biochar in their work-related activity. On average, respondents correctly answered approximately half of 12 true-false statements on biochar. Respondents’ attitudes toward biochar, as well as their perceptions of other agents’ attitudes, were, on average, neutral. Agents held moderate importance in promoting sustainable soil amendments. On average, respondents indicated being neither likely nor unlikely to incorporate biochar in their work-related activity, but high variability was found. A significant model was produced that indicates agents who are more knowledgeable about biochar and view biochar more favorably are more likely to incorporate biochar in future work

Cytosolic protein concentration is the primary volume signal in dog red cells

It is not known whether the activation of Na/H exchange by shrinkage in dog red cells is due to the packing of cell contents or a change in cell configuration. To make this distinction we prepared resealed ghosts that resembled intact cells in hemoglobin concentration and surface area, but had one-third their volume. A shrinkage-induced, amiloride-sensitive Na flux in the ghosts was activated at a much smaller volume in the ghosts than in the intact cells, but at the same concentration (by weight) of dry solids in both preparations. Na/H exchange in ghosts containing a mixture of 40% albumin and 60% hemoglobin (weight/weight) was activated by osmotic shrinkage at a dry solid concentration similar to that of intact cells or of ghosts containing only hemoglobin. We conclude that the process of Na/H exchange activation by cell shrinkage originates with an increase in the concentration of intracellular protein and not with a change in membrane configuration or tension. The macromolecular crowding that accompanies the reduction in cell volume probably alters the activities of key enzymes that in turn modulate the Na/H exchanger

Quantitative Relationships Between Pore Tortuosity, Pore Topology, and Solid Particle Morphology Using a Novel Discrete Particle Size Algorithm

To sustain the continuous high-rate charge current required for fast charging of electric vehicle batteries, the ionic effective diffusion coefficient of the electrodes must be high enough to avoid the electrode being transport limited. Tortuosity factor and porosity are the two microstructure parameters that control this effective diffusion coefficient. While different methods exist to experimentally measure or calculate the tortuosity factor, no generic relationship between tortuosity and microstructure presently exists that is applicable across a large variety of electrode microstructures and porosities. Indeed, most relationships are microstructure specific. In this work, generic relationships are established using only geometrically defined metrics that can thus be used to design thick electrodes suitable for fast charging. To achieve this objective, an original, discrete particle-size algorithm is introduced and used to identify and segment particles across a set of 19 various electrode microstructures (nickel-manganese-cobalt [NMC] and graphite) obtained from X-ray computed tomography (CT) to quantify parameters such as porosity, particle elongation, sinuosity, and constriction, which influence the effective diffusion coefficient. Compared to the widely used watershed method, the new algorithm shows less over-segmentation. Particle size obtained with different numerical methods is also compared. Lastly, microstructure-tortuosity relationship and particle size and morphology analysis methods are reviewed

Cytosolic protein concentration is the primary volume signal for swelling-induced [K-Cl] cotransport in dog red cells

Chloride-dependent K transport ([K-Cl] cotransport) in dog red cells is activated by cell swelling. Whether the volume signal is generated by a change in cell configuration or by the dilution of some cytosolic constituent is not known. To differentiate between these two alternatives we prepared resealed ghosts that, compared with intact red cells, had the same surface area and similar hemoglobin concentration, but a greatly diminished volume. Swelling-induced [K-Cl] cotransport was activated in the ghosts at a volume (20 fl) well below the activation volume for intact cells (70 fl), but at a similar hemoglobin concentration (30-35 g dry solids per 100 g wet weight). Ghosts made to contain 40% albumin and 60% hemoglobin showed activation of [K-Cl] cotransport at a concentration of cell solids similar to intact cells or ghosts containing only hemoglobin. [K-Cl] cotransport in the resealed ghosts became quiescent at a dry solid concentration close to that at which shrinkage-induced Na/H exchange became activated. These results support the notion that the primary volume sensor in dog red cells is cytosolic protein concentration. We speculate that macromolecular crowding is the mechanism by which cells initiate responses to volume perturbation

Why Teach? Exploring the Motivations and Expectations of First-year, Alternatively Certified Agriscience Teachers

School-Based agricultural education increasingly depends upon alternatively certified (AC) teachers to teach agriculture across the United States. Understanding why these individuals become teachers is an important step to better recruit and retain educators who do not complete traditional preparation programs. The purpose of our study was to explore the backgrounds, motivations, and expectations of AC agriscience teachers joining the profession. Our study was guided by the social cognitive career theory and utilized a qualitative phenomenological approach. We interviewed seven AC agriscience teachers in Florida during their first-year teaching to explore their journey into teaching agricultural education. Six major themes were found, including background and interest in agriculture, positive teaching self-efficacy expectations, positive teaching outcome expectations, right location and right time, exciting but challenging, and more than expected. We recommend providing support programs tailored for AC agriscience teachers that are guided by the similar backgrounds, motivations, and expectations of AC teachers