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Study of the Influences of a High School Career Exploration Program on the Adult Professional Lives of Former Program ParticipantsNadeau, Roger 20 May 2005 (has links)
This phenomenological study documented the influences of a high school career exploration program, Experience-Based Career Education (E.B.C.E.), on the professional lives of nine adults who are former program participants. E.B.C.E. was an experiencebased, student-centered program that helped students develop long-term career goals and then reassessed those goals based on community-based, externship experiences. The findings in this study indicate that the utilization of John Dewey’s experiencebased, student-centered philosophy, the basis for E.B.C.E., effectively enhanced the learning process. The study's data, which was gathered exclusively through an Internet focus group session and follow-up email questions, documented the long-term influence of E.B.C.E. on program participants at Ellen Martin High School, a school that admitted only honors students in a large city in the South. E.B.C.E. participants from Ellen Martin High School participated in the Program for the last two years of high school. Program participants discovered their career interests and researched their career options while learning job skills and life skills during their junior year of E.B.C.E. Their non-paid externships, during their senior year of E.B.C.E., helped students learn how they might fit into the adult work world. Study participants developed life guides/philosophies, such as the importance of responsibility, commitment, dedication, and hard work. Adult mentors played an important role in the lives of the E.B.C.E. students, both personally and professionally and several study participants have maintained contact with their former E.B.C.E. mentors. These mentoring experiences helped E.B.C.E. participants develop a sense of confidence about their abilities in the adult world. They have maintained this sense of confidence in their present profession. Most of the study's participants experienced flow, a condition linking high challenges to feelings of enjoyment, self-worth, and ongoing development, based on their successfully meeting challenges. Some of these challenges were purposely placed in the paths of students to test them while they participated in E.B.C.E. The positive feelings about overcoming challenges, in the adult work world led E.B.C.E. students to seek higher level challenges and this recursively upward pattern of seeking higher challenges has led them to continue seeking higher challenges in their professional lives.
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IT Design for Amateur CommunitiesBogdan, Cristian January 2003 (has links)
The concept of community is receiving increasing attentionacross organizations and throughout the entire society.Voluntary association, creation of value, and solidarity incommunity contexts get more and more appreciated and nurturedwithin companies and other organizations. At the same time,lack of community is raised lately by Western sociologists as amajor source of alarm while the large participationpossibilities provided by the Internet are seen as a hope forremedy. This thesis aims to contribute in the area of technologydesign for communities by seeking to gain understanding ofvoluntary community work and to design artefacts in support forsuch work. Community work is studied through anethnographically-inspired approach for empirical observation ofcommunity activity and the artefacts that support it. Fieldstudy ofvoluntary working orderwas conducted inseveral voluntary communities: amateur radio and three studentorganisations. In studying such working order, one mustrenounce a set of assumptions that are commonly made aboutwork, starting with the very idea of remuneration as a basicmotivation. Instead, challenge as a major motivation isproposed for work in voluntary communities. To draw inspirationfor future design, an examination is made of the way thismotivation is reflected in the features of technology createdby the communities for their own use, in the working contextsof the field settings. Lessons learned about amateur work are then used and refinedwhile reflecting on amateur-work-oriented design of ITartefacts conducted within a student organisation, with aparticular interest in self-sustainability of participatorydesign practices in such settings. Practices of participatorydesign are re-considered in the context of voluntary work, theabsence of the employer-employee conflict, the challenges andlearning trajectories of the members. As development is done bymembers of the student community, design interventions forself-sustainability of amateur software development aredescribed and reflected upon. A generic approach is proposedfor action aimed at self-sustainability in amateur settings.The socio-technical features that resemble across thecommunities studied and practices experienced are then groupedunder the generic name of the perspective developed in thisthesis:Amateur Community. The perspective isproposed as a point of departure for further study and designintervention in similar communities. Comparisons are madebetween Amateur Community and other approaches such asCommunity of Practice. Keywords:amateur, volunteer, community, work, amateurwork, participatory design, software development, challenge,contingency, pioneering, public, personal development,learning, hands-on learning, selfsustainability / QC 20100420
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I. Kinetic and Computational Modeling Studies of Dimethyldioxirane Epoxidations II. Adressing Misconceptions About Energy Changes in Chemical Reactions Through Hands-on ActivitiesMcTush-Camp, Davita 11 May 2015 (has links)
Kinetic studies determining the second order rate constants for the monoepoxidation of cyclic dienes, 1,3-cyclohexadiene and 1,3-cyclooctadiene, and the epoxidation of cis-/trans-2-hexenes by dimethyldioxirane (DMDO) were carried out using UV methodology. Consistent with published results, the kinetics of cis-/trans-2-hexenes by DMDO showed greater reactivity of the cis-isomer compared to that of the trans-compound. Molecular modeling studies for the epoxidation of a series of cis-/trans-alkenes, by DMDO were carried out using the DFT approach. The mechanism of epoxidation by DMDO was modeled by determining the transition state geometry and calculating the electronic activation energies and relative reactivities. The calculations were consistent with a concerted, electrophilic, exothermic process with a spiro-transition state for all cases. Kinetic studies for the monoepoxidation of the cyclic dienes showed a greater reactivity for 1,3-cyclohexadiene compared to that for 1,3-cyclooctadiene. The DFT method was employed to successfully model the transition state for the monoepoxidation of the cyclic dienes by DMDO and successfully predict the relative reactivities.
Student misconceptions, at the high school and/or middle school level involving energy changes and chemical reactions have been prevalently noted in literature (by ACS and AAAS). Two examples of these misconceptions are: 1) heat is always needed to initiate a chemical reaction and 2) all chemical reactions create or destroy energy. In order to address these types of misconceptions, an educational module detailing the influence of energy changes on chemical reactions has been developed in conjunction with the Bio-bus program for middle and high school students. Visual aids and hands-on activities were developed in the module to potentially help students overcome/deal with the common misconceptions. Surveys were designed to access the situations (determine the extent of the misconceptions) and the effectiveness of the educational module, before and immediately after the module and one-month later to determine retention. The educational module has been presented to approximately 100 high school students from underrepresented communities. Pre-survey data confirmed the presence of the common misconceptions reported in the literature. Data from the post-survey indicated the new instructional module enhanced the student’s interest of science and expanded their content knowledge and laboratory skills. The post-survey data (immediately following the module) showed a significant difference in two out of five misconceptions when compared to the pre-survey data. However, this significance decreased when the 1-month post-survey data were compared to the pre-survey data.
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"You get what you pay for" vs "You can alchemize": Investigating Discovery Research Experiences in Inorganic Chemistry/Chemistry Education via an Undergraduate Instructional LaboratoryBodenstedt, Kurt Wallace 08 1900 (has links)
Synthesis of d10 complexes of monovalent coinage metals, copper(I) and gold(I), with dithiophosphinate/diphosphine ligands -- along with their targeted characterization and screening for inorganic or organic light emitting diodes (LEDs or OLEDs, respectively) -- represents the main scope of this dissertation's scientific contribution in inorganic and materials chemistry. Photophysical studies were undertaken to quantify the phosphorescence properties of the materials in the functional forms required for LEDs or OLEDs. Computational studies were done to gain insights into the assignment of the phosphorescent emission peaks observed. The gold(I) dinuclear complexes studied would be candidates of OLED/LED devices due to room temperature phosphorescence, visible absorption/excitation bands, and low single-digit lifetimes -- which would promote higher quantum yield at higher voltages in devices with concomitant lower roll-off efficiency. The copper(I) complexes were not suited to the OLED/LED applications but can be used for thermosensing materials. Crystallographic studies were carried to elucidate coefficients of thermal expansion of the crystal unit cell for additional usage in materials applications besides optoelectronic devices. This has uncovered yet another unplanned potential application for both copper(I) and gold(I) complexes herein, as both types have been found to surpass the literature's threshold for "colossal" thermal expansion coefficients. Two other investigations represent contribution to the field of chemistry education have also been accounted for in this dissertation. First, a 12-week advanced research discovery experiment for inorganic chemistry has been designed to help students develop application-based content expertise, as well as to introduce students to research experiences that are similar to those found in academia, industry, and government research laboratories. Students are expected to develop a novel research project through conducting a literature search to find suitable reaction protocols, incorporating synthetic techniques, collecting data, characterizing products and applications of those products, and presenting their results. This multi-week research discovery experiment is centered on applications of inorganic synthetic techniques to design, analyze, and screen d10 coinage metal complexes for possible LED/OLED-based applications that were presented in chapter 3 of the dissertation. The second chemistry education contribution pertains to designing a pilot research study to investigate undergraduate chemistry majors' perceptions of environmental sources/influences, self-efficacy, outcome expectations, career interests, and career choice goals in the lab designed in chapter 4 of the dissertation. Specifically, this research aims to gauge students' perceptions of their ability to perform synthetic and analytical methods for the creation of materials that were used in a novel research experiment in the context of an inorganic chemistry laboratory. This research study used a survey to collect data on students' motivation, self-efficacy, career interests, and career goals upon graduation, along with their perceived barriers within the course. This research study is guided by the following research question: How does an inorganic chemistry laboratory course, following a research discovery model, impact undergraduate students' (a) confidence with techniques and skills, (b) perception of ability to conduct research, and (c) interest in pursuing careers involving chemistry?
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