119 research outputs found
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Investigating the Use of Online Degree Audit Technology and Understanding the Student Experience
Academic advising is an integral step in a community college students higher education journey, and as such must be supported with any tools available to increase student success. Technology is becoming more highly integrated into the academic advising process as are online tools which provide access to student records, course requirements, and academic planning towards degree or certificate completion. In the current pandemic situation, social distancing and increased dependency on virtual communication brings higher expectations to how technology supports and improves the college experience. The use of online degree audit technology has not been fully explored through the eyes of actual community college students and findings are scarce in the scholarly literature. The purpose of this qualitative study was to investigate the lived experiences of community college students who had been enrolled for at least three consecutive terms and had participated in both in-person academic advising as well as having used the online degree audit software called DegreeWorks TM. The focus of the research questions was to understand the student perceptions of their interactions with in-person advising processes, and how the technology impacts the quality of their academic advising experience in terms of course selection and degree completion. This study stemmed from the constructionist and pragmatic perspectives of the researcher. Additionally, this study asked how community college students perceived the effectiveness of the face-to-face advising process as compared to the information provided by the online degree audit tool.
This qualitative phenomenological study explored community college students lived experiences with the process of academic advising and with using the online degree audit tool. Students were selected using a purposeful sampling selection process based on their usage of the online degree audit tool and continuous enrollment of four consecutive terms at a PNW community college. This study used verbatim transcript data from semi-structure interviews with community college students as the primary source of evidence. Data for this study were interpreted through a process of thematic qualitative analysis by identification of codes or categories from the transcripts which led to discovery of patterns and then the creation of themes focused on answering the research questions. This study sought to find evidence that followed three theoretical frameworks: (a) student involvement, (b) student engagement, and (c) the essential functions of academic advising.
The major findings of this study were evaluated within the guiding theoretical framework found within the body of literature on the topic: (a) advising for student success and retention, (b) technology’s role in advising, (c) student persistence in their involvement with advising, and (d) functional elements of academic advising. Key insights appeared stemming from the participants experience: (a) a display of motivation and persistence, (b) evidence of intentional involvement, and (c) engagement with advising and improved retention and success. Participants described both positive and negative experiences with in-person advising as well as with the online degree audit technology. Of the five essential academic advising functions, shared responsibility was quite evident. In addition, participants did not feel a sense of individuation when receiving in-person general advising, but when engaged with specific subject area advising from faculty or were involved with the special advising programs they expressed extreme satisfaction with the services they received. The online degree audit technology was giving both positive and negative ratings, with accurate information and the ability to avoid the cost of enrollment in unnecessary courses earning the most appreciation. The negative experiences contained frustration with navigation, lack of additional course fee, and other registration restriction information. The apparent lack of promotion and student support was a significant finding, indicating a lack of staff commitment to integrate the online degree audit technology as a key resource for academic advising to improve student success
Gross-Neveu Models, Nonlinear Dirac Equations, Surfaces and Strings
Recent studies of the thermodynamic phase diagrams of the Gross-Neveu model
(GN2), and its chiral cousin, the NJL2 model, have shown that there are phases
with inhomogeneous crystalline condensates. These (static) condensates can be
found analytically because the relevant Hartree-Fock and gap equations can be
reduced to the nonlinear Schr\"odinger equation, whose deformations are
governed by the mKdV and AKNS integrable hierarchies, respectively. Recently,
Thies et al have shown that time-dependent Hartree-Fock solutions describing
baryon scattering in the massless GN2 model satisfy the Sinh-Gordon equation,
and can be mapped directly to classical string solutions in AdS3. Here we
propose a geometric perspective for this result, based on the generalized
Weierstrass spinor representation for the embedding of 2d surfaces into 3d
spaces, which explains why these well-known integrable systems underlie these
various Gross-Neveu gap equations, and why there should be a connection to
classical string theory solutions. This geometric viewpoint may be useful for
higher dimensional models, where the relevant integrable hierarchies include
the Davey-Stewartson and Novikov-Veselov systems.Comment: 27 pages, 1 figur
The role of neuronavigation in intracranial endoscopic procedures
In occlusive hydrocephalus, cysts and some ventricular tumours, neuroendoscopy has replaced shunt operations and microsurgery. There is an ongoing discussion if neuronavigation should routinely accompany neuroendoscopy or if its use should be limited to selected cases. In this prospective clinical series, the role of neuronavigation during intracranial endoscopic procedures was investigated. In 126 consecutive endoscopic procedures (endoscopic third ventriculostomy, ETV, n = 65; tumour biopsy/resection, n = 36; non-tumourous cyst fenestration, n = 23; abscess aspiration and hematoma removal, n = 1 each), performed in 121 patients, neuronavigation was made available. After operation and videotape review, the surgeon had to categorize the role of neuronavigation: not beneficial; beneficial, but not essential; essential. Overall, neuronavigation was of value in more than 50% of the operations, but its value depended on the type of the procedure. Neuronavigation was beneficial, but not essential in 16 ETVs (24.6%), 19 tumour biopsies/resections (52.7%) and 14 cyst fenestrations (60.9%). Neuronavigation was essential in 1 ETV (2%), 11 tumour biopsies/resections (30.6%) and 8 cyst fenestrations (34.8%). Neuronavigation was not needed/not used in 48 ETVs (73.9%), 6 endoscopic tumour operations (16.7%) and 1 cyst fenestration (4.3%). For ETV, neuronavigation mostly is not required. In the majority of the remaining endoscopic procedures, however, neuronavigation is at least beneficial. This finding suggests integrating neuronavigation into the operative routine in endoscopic tumour operations and cyst fenestrations
Corrosion of the International Simple Glass under acidic to hyperalkaline conditions
Assessment of glass dissolution kinetics, under disposal relevant temperature and pH environments, is required to credibly estimate radionuclide release rates from vitrified radioactive waste. Leaching of the International Simple Glass (ISG) under acidic to hyperalkaline conditions was examined. Forward rate measurements have been obtained using the dynamic leaching SPFT protocol and rate parameters for B, Na and Si in the basic regime; errors in rates predicted using these parameters at high pH and temperature are significant because the fitting uses logarithmic data. Longer term behaviour under hyperalkaline conditions, representative of some disposal environments, was investigated using the PCT and MCC-1 static leaching protocols with Ca(OH)2 solutions for up to 120 days (PCT) and 720 days (MCC-1). In hyperalkaline conditions dissolution was incongruent for all elements and the presence of alternating zirconia-rich and zirconia-poor alteration layers was observed on all leached monoliths, indicating the occurrence of a self-organisation phenomenon during leaching
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