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Designing Innovative Alternatives to Traditional High Schools: What Leaders Need to KnowEdwards, Chester Roy 05 June 2013 (has links)
The need for new and innovative alternatives to traditional high schools has never been greater. Never designed to graduate all students on time, traditional high schools and their high dropout rates have remained unchanged for the last 30 years. Improving secondary schooling for all young people is a worthwhile social and educational objective. Many school leaders want to create alternative high schools but may lack the knowledge of what to do, nor may they have a comprehensive design process to follow.
The research question explored in this dissertation is: What do leaders in education need to know to design innovative alternatives to traditional high schools?
This dissertation studied four aspects or assumptions that school leaders should understand when designing alternatives to traditional high schools: (a) consider all of the elements of successful alternative high schools, (b) start over conceptually when designing a new alternative high school, (c) use regional accreditation standards as a framework for design, and (d) begin design with the end in mind for program evaluation. Research literature topics of alternative education, organizational leadership, school accreditation standards, and program evaluation were reviewed.
The research conducted was theoretically and practically grounded in Bridges and Hallinger's (1995) Problem-Based Learning (PBL) and Borg and Gall's (1989) Research and Development (R&D) Cycle. The product of the research conducted in the R&D cycle was a process for designing alternative high schools. Qualitative and quantitative data collected from school leaders and designers during field tests was analyzed to improve a prototype of an alternative high school design process. An effective process that is ready for dissemination was the result of this research. A larger implication of the application of this process will be the improvement of high school experiences for all students through the creation of new designs for innovative forms of secondary schooling.
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Koden först : Utformning av ett induktivt introduktionsmoment iprogrammering på Tekniskt basår med bakgrund iidentifierade svårigheter / Coding FirstFall, Emmeli, Kirsch, David January 2019 (has links)
Programmering tog 2018 ett stort kliv in matematikundervisningen och det är upp till varjeenskild lärare att besluta hur programmering ska integreras i matematikundervisningen. Detvar med denna bakgrund som Tekniskt basår på KTH Campus önskade utvecklaprogrammeringslaborationer till studenter på Tekniskt basår 2018/2019. Uppdragetformulerades sedan om till att vi, istället, skulle leda ett fristående introduktionsmoment iprogrammering för nuvarande Tekniskt basårsstudenter (VT2019).Syftet med detta examensarbete var att kartlägga svårigheter som tidigare Teknisktbasårsstudenter haft då de läste sin första programmeringskurs på ett ingenjörsprogram. Defunna svårigheterna skulle sedan ligga till grund för ett introduktionsmoment för nuvarandestudenter på Tekniskt basår. En enkätundersökning på tidigare studenter utfördes för attsamla in data för att identifiera svårigheterna som sedan kategoriserades genom en tematiskanalys. Introduktionsmomentet skapades med mindre uppgifter utifrån idéer frånproblembaserat och induktivt lärande.Resultatet pekar på sju teman av svårigheter, nämligen abstrakt, komplext, teori,arbetssättet, kursen, nytt och övriga svårigheter. Resultaten av svårigheterna liknar det somtidigare kartläggningar av programmeringssvårigheter har funnit. Ett förslag på ett induktivtintroduktionsmoment influerat av problembaserat lärande presenteras och analyseras utifrånde funna svårigheterna.Vidare forskning skulle kunna följa upp om studenterna upplevde att svårigheterna blevavdramatiserade genom introduktionsmomentet samt utvärdera hur introduktionsmomentetkan tas vidare på Tekniskt basår. / In 2018, programming became an integral part of mathematics education in Sweden. However, the choice of how to integrate it with the curriculum remains a decision of the teacher. Consequently, teachers at KTH’s Technical Preparatory Year announced a master’s degree project aiming to design programming labs in mathematics for students attending the program during 2018/2019. The degree project was reformulated to focus on introducing programming without the mathematical context. The aim of this master thesis was to pinpoint earlier students’ difficulties during theintroductory course in programming of their engineering program at KTH. These difficulties would later be the basis of the programming introduction for the current Technical Preparatory Year students. A review of the research literature on the learning of programming identified a number of common areas of concern. In order to collect data to identify our prior students’ difficulties a survey was designed. The data collected in the survey was then categorized through a thematic analysis.The results indicated seven themes of difficulties: abstract, complex, theory, work procedure, programming courses, new and miscellaneous. The results are similar to those found in prior categorizations of programming difficulties. Taking these themes into consideration, a suggestion of the content for the introduction was presented based on ideas from inductive learning and problem based learning. Future research should focus on determining whether the introduction dealt with the difficulties and what the effects were. Furthermore, future research could develop the material for the introduction, in particular how students are assessed.
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The Effect of the Engineering Design Process on the Critical Thinking Skills of High School StudentsUre, Heather 12 March 2012 (has links) (PDF)
The purpose of the research reported here was to determine the impact learning the engineering design process (EDP) would have on the critical thinking skills of high school physics students. An EDP unit was conducted with 5 classes of high school physics students in grades 10-12 over 1 month. The EDP unit's curriculum allowed for the gradual release of responsibility as students became more familiar with the EDP and more consistent in using it. The six steps used in this EDP unit were Ask, Imagine, Plan, Create, Test, and Improve. The Watson-Glaser Critical Thinking Appraisal was given as a pre- and post-test to measure the growth in critical thinking skills. By measured standards, qualitative analysis and observation, students showed an increase in critical thinking skills and in confidence to use them.
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The Effects of Small Group Cooperation Methods and Question Strategies on Problem Solving Skills, Achievement, and Attitude during Problem-Based LearningMaxfield, Marian Belle 13 May 2011 (has links)
No description available.
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THE IMPACT OF PROBLEM-BASED LEARNING WITH COMPUTER SIMULATION ON MIDDLE LEVEL EDUCATORS' INSTRUCTIONAL PRACTICES AND UNDERSTANDING OF THE NATURE OF MIDDLE LEVEL LEARNERSHuelskamp, Lisa Mary 14 July 2009 (has links)
No description available.
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Constructing a modelling-based learning environment for the enhancement of learner performance in Grade 6 mathematics classrooms : a design study / Frans Martin van SchalkwykVan Schalkwyk, Frans Martin January 2014 (has links)
The purpose of this study is to focus on constructing a modelling-based learning environment to improve learner performance in grade 6 mathematics classrooms. The purpose emanates from the continued poor performance of learners in mathematics at different school levels, especially grade 6. The teaching and learning of mathematics is explained from an ontological point of departure, focussing on constructivist paradigms. Different types of constructivism are discussed with special attention to the school mathematics domain. The learning, problem based learning, problem solving and learning environment are key components in the discussion. A theoretical perspective on the design of modelling as a powerful learning environment in primary schools mathematics classrooms is provided. Focus is placed on the applicability of the modelling-based learning environment on the South African mathematics curriculum and on study orientation as a key component to help develop an understanding of why learners perform or do not perform in mathematics.
A mixed method research design, in which quantitative and qualitative are combined to achieve the outcomes of the research problem, is chosen for this research study project to provide a purposeful research framework. The findings of the research include not only learners’ improvement in dealing with non-routine, mathematical word problems but also in general-routine, mathematical word problems. A second finding shows that the overall SOM pre/post/retention showed good reliability, acceptable construct validity, good practical significance, and large effect but had low to medium effect in individual fields. The univariate analysis for the Crossover design used indicated that the problem solving field had statistical significance and practical significance, and the study milieu and mathematical confidence field might have statistical significance and practical significance. The third finding provided evidence concerning teacher administration, teacher and learner interaction, assessment and homework. The findings from the quantitative and qualitative data-analysis and interpretations, and literature review, guided the researcher in proposing a construct for a modelling-based learning environment as a means to improve learners’ mathematics performance in grade 6 mathematics classes in the John Toalo Gaetswe (JTG) District.
The contribution that this study makes is to propose a construct for a modelling-based learning environment to improve learner performance in grade 6 mathematics. / PhD (Mathematics Education), North-West University, Potchefstroom Campus, 2014
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Constructing a modelling-based learning environment for the enhancement of learner performance in Grade 6 mathematics classrooms : a design study / Frans Martin van SchalkwykVan Schalkwyk, Frans Martin January 2014 (has links)
The purpose of this study is to focus on constructing a modelling-based learning environment to improve learner performance in grade 6 mathematics classrooms. The purpose emanates from the continued poor performance of learners in mathematics at different school levels, especially grade 6. The teaching and learning of mathematics is explained from an ontological point of departure, focussing on constructivist paradigms. Different types of constructivism are discussed with special attention to the school mathematics domain. The learning, problem based learning, problem solving and learning environment are key components in the discussion. A theoretical perspective on the design of modelling as a powerful learning environment in primary schools mathematics classrooms is provided. Focus is placed on the applicability of the modelling-based learning environment on the South African mathematics curriculum and on study orientation as a key component to help develop an understanding of why learners perform or do not perform in mathematics.
A mixed method research design, in which quantitative and qualitative are combined to achieve the outcomes of the research problem, is chosen for this research study project to provide a purposeful research framework. The findings of the research include not only learners’ improvement in dealing with non-routine, mathematical word problems but also in general-routine, mathematical word problems. A second finding shows that the overall SOM pre/post/retention showed good reliability, acceptable construct validity, good practical significance, and large effect but had low to medium effect in individual fields. The univariate analysis for the Crossover design used indicated that the problem solving field had statistical significance and practical significance, and the study milieu and mathematical confidence field might have statistical significance and practical significance. The third finding provided evidence concerning teacher administration, teacher and learner interaction, assessment and homework. The findings from the quantitative and qualitative data-analysis and interpretations, and literature review, guided the researcher in proposing a construct for a modelling-based learning environment as a means to improve learners’ mathematics performance in grade 6 mathematics classes in the John Toalo Gaetswe (JTG) District.
The contribution that this study makes is to propose a construct for a modelling-based learning environment to improve learner performance in grade 6 mathematics. / PhD (Mathematics Education), North-West University, Potchefstroom Campus, 2014
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Investigating the problem-solving proficiency of second-year Quantitative Techniques students : the case of Walter Sisulu UniversityBester, Lynette 07 1900 (has links)
Quantitative Techniques is traditionally a subject with a poor pass rate at Walter Sisulu
University. In search of a turnaround strategy, the purpose of this study was to determine the
level of problem-solving proficiency of Quantitative Techniques students, which is suspected
to influence achievement in this subject. A descriptive survey design was used in this
research. Second-year ND (Marketing) students (128) took part in the study. A questionnaire
and a written test were used to collect data. A profile of participants’ problem-solving was
determined. Their weaknesses and strengths in problem-solving were investigated. The
problem-solving proficiency of participants with regards to the biographical variables of
Gender, Age, Mathematics background and whether they took Data Handling training at
school or not were explored.
A model, based on Polya’s four stages of problem-solving, was used to measure the students’
level of problem-solving proficiency, which was 59,16%. Findings suggest that the students
achieved highest in understanding a problem (72,29%) and making a plan to solve the
problem (73,77%). They are weakest at interpreting their results (29,38%). MANOVA results
showed no statistical significance for the biographical variables. The univariate results
suggest that age, Data Handling training at school and Gender could affect problem-solving
proficiency. Since the findings of this study indicate a strong relationship between participants’ problem-solving proficiency and their actual achievement, some intervention is
recommended. An intervention could be in the form of a section on problem-solving in the
course, supplemental instruction or an introductory course. Course and curriculum content should be revised to address students’ proficiency in problem-solving. / Mathematical Sciences / M. A. (Statistics Education)
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Model vir kurrikulumontwikkeling in verpleegkunde / A curriculum development model for nursingDe Villiers, Louise, 1953- 06 1900 (has links)
Teoretiese navorsing is onderneem om 'n model vir kurrikulumontwikkeling vir die Diploma vir
Registrasie as Verpleegkundige (algemene, psigiatriese, gemeenskaps-) en Vroedvrou te ontwikkel.
Twee hooffaktore beinvloed verpleegonderwys. Op globale vlak word verpleegonderwys beinvloed
deur die realiteite van 'n inligtingtegnologie-gedrewe samelewing. Dit noodsaak die ontwikkeling van
kritiese denke, aanpasbaarheid ten opsigte van konstante sosiale verandering en 'n verbintenis tot
lewenslange leer. Op nasionale vlak word verpleegonderwys beinvloed deur 'n nasionale
gesondheidstelsel wat gekwalifiseerde verpleegkundiges vereis, wat in staat is om omvattende
gesondheidsorg te lewer. 'n Situasie-analise het gelei tot die identifisering van twee hoofkonsepte wat
die verpleegkundekurrikulum beinvloed, naamlik lcritiese denke en omvattende gesondheidsorg.
Vorige navorsing dui daarop dat verpleegdosente nie paraat is ten opsigte van verwikkelinge in die
onderwys nie. Dit kan negatiewe gevolge he vir innoverende kurrikulumontwikkeling in
verpleegkunde ten einde die professie strategies te posisioneer om te voldoen aan die eise van die
komende eeu. Die navorser het beoog om die leemte te oorbrug deur middel van navorsing wat gemik
was op die daarstelling van 'n omvattende kurrikulumontwikkelingstrategie wat kan dien as praktiese
riglyn vir die implementering van kurrikulumontwikkeling in verpleegkunde.
Op grond van 'n analise van die konsep kurri/culum, 'n situasie-analise en die interpretering daarvan,
is die Model vir Kurrikulumontwikkeling in Verpleegkunde gekonseptualiseer. Die model kan
verpleegdosente in staat stel om fundamentele kurrikulumverandering te bewerkstellig en 'n relevante
kurrikulum daar te stel, deur gespesifiseerde kurrikulumontwikkelingstake stelselmatig af te handel.
Die implikasies van die konsepte lcritiese denke en omvattende gesondheidsorg vir die
verpleegkundekurrikulum, is uitgespel deur kriteria vir die nuwe verpleegkundekurrikulum te
formuleer / The researcher undertook theoretical research to develop a curriculum development model for the
Diploma for Registration as a Nurse (General, Psychiatric, Community) and Midwife.
There are two main tendencies that influence nursing education. On a global level nursing education
is influenced by realities that are inherent in an information technology-driven world. This requires
the development of critical thinking skills, adaptability to constant social change and a commitment to
life-long learning. Nationally, nursing education is influenced by a national health system requiring
trained nurses who are able to render comprehensive health care. A situation analysis resulted in the
identification of two main concepts that influence the nursing curriculum namely, critical thinking
and comprehensive health care.
Previous research indicates that nurse educators are outdated in terms of developments in education.
This can have negative consequences for innovative curriculum development in nursing in order to
position the nursing profession strategically to meet the demands of the next century. This limitation
prompted the researcher to conduct research that was aimed at designing a comprehensive curriculum
development strategy to serve as a practical guideline on how to implement curriculum development
in nursing.
Based on an analysis of the concept curriculum, a situation analysis and the interpretation thereof: the
researcher conceptualized the Curriculum Development Model for Nursing. The model will enable
nurse educators to effect fundamental curriculum change and the development of a relevant
curriculum by completing specified curriculum development tasks systematically. The implications of
the concepts critical thinking and comprehensive health care for the nursing curriculum, were
elucidated by formulating criteria for a new nursing curriculum.
Key terms: curriculum; curriculum development; curriculum foundation; curriculum structure;
curriculum design; situation analysis; critical thinking; reflective practice; comprehensive health care;
comprehensive nursing curriculum; community based curriculum; problem based learning; media
assisted learning; ~ve learning; reflective learning; experiential learning; mediated learning. / Health Studies / D.Litt. et Phil. (Advanced Nursing Science)
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The perceptions of second year medical students towards the problem-based curriculum as compared to the traditional curriculumHassan, Salochana 06 1900 (has links)
The main hallmarks of the novel problem-based curriculum are
self-directed, student-centred learning, clinical reasoning,
small group tutorials and the facilitation of learning in an
integrated way. These features differ significantly from the
traditional curriculum which is teacher-centred, discipline-based
and more content orientated.
The innovative programme was implemented at the University of
Transkei with a view to improving medical education. In this
study, the perceptions of second year medical students regarding
the implemention of and transition to the new curriculum, was
assessed, as part of the evaluation of the curriculum.
The results showed that students had grievances about the
overwhelming volume of information they had to cover, time
constraints, examination methods and bias of tutors towards their
own subjects. Nevertheless, they considered the innovation to
be favourable, exciting, relevant to life and to future tasks,
and more motivating than the traditional curriculum. / Educational Studies / M. Ed. (Didactics)
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