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The next American high school initiativeFacundo, Valter 01 January 2000 (has links)
The next American School Initiative plans to benefit low income minorities or below average achievers to excel in career choices by following occupational clusters and job shadowing to promote careers in applied technology.
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En analys av en lärandemiljö i teknik för flickor / An analysis of a learning enviroment in technology for GirlsJohansson, Sophia January 2020 (has links)
In this case study, I focus on how coaches’ at Programmering AB work with girls’ engagement in a technology setting. The purpose of this study is to study coaches’ different strategies to encourage girls’ engagement in technology, and what obstacles and possibilities they see with girls’ engagement in technology. The study uses a qualitative method using 5 semi-structured interviews with all coaches’ and the CEO of the company. I based my analysis of the interviews on Ottemo´s broad culture studies education theory. The result of the analysis showed that there are three areas that are important to develop for improving girls’ engagement in technology. These areas are environment and learning, passion and relation and added value. With my study I hope to contribute to a better understanding of the importance of a good technology environment that can be inspiring for girls to explore and feel passionate about and where they are valued for their ideas.
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Enhancing student engagement and interaction in e-learning environments through learning analytics and wearable sensingChen, Jingjing 26 August 2016 (has links)
E-learning refers to computer-based learning experiences, self-paced or instructor-led, supported and enabled by information technology. Virtual Learning Environments (VLEs), as a major form of e-learning systems, are increasingly adopted in universities and educational institutions for supporting various types of learning. Student engagement is critical for successful teaching and learning in VLEs. In existing VLEs, feeling isolated without adequate supervision from teachers may cause negative emotions such as anxiety. Such emotions may in turn significantly weaken students'motivation to engage in learning activities. In addition, the lack of effective interaction in learning activities also results in poor performance and engagement, even dropouts from online courses. In this thesis, we explore a set of approaches and tools to enhance student engagement and interaction in e-learning environments: (1) extract valuable information from the user posts in online course forums to advise the content organization of web pages; (2) instantly monitor and visualize students' interaction statuses in instructor-led learning; (3) identify and highlight the hotspot time slots and contents of the lecture recordings; (4) dynamically provide biofeedback-based visualization via wearable devices to reduce students' anxiety in self-paced learning.;We present a page-segmentation-based wrapper (eCF-wrapper) designed for extracting learner-posted data in online course forums. It consists of a novel page segmentation algorithm and a decision tree classifier. We also develop a web-based interaction-aware VLE (WebIntera-classroom), which employs a ubiquitous interactive interface to enhance the learner-to-content interactions, and a learning analytics tool to instantly visualize learners'interactions in learning activities. Additionally, we propose a high--granularity Learning Analytics Engine (hgLAE) to play a lecture recording, identify hotspots in a lecture recording and raise students'awareness of these hotspots. A questionnaire survey, interview and case study were conducted to investigate the instruction effect of WebIntera-classroom. Besides, we develop a physiologically-state-aware self-paced learning environment (FishBuddy) to alleviate anxiety and promote student engagement in self-paced learning by using wearable technology. The between-groups evaluation result shows that FishBuddy is useful in promoting student engagement (i.e., the consistency of engagement), and the students' self-reports indicate that FishBuddy is helpful for reducing anxiety and experience of isolation during the self-paced learning exercises.;Finally, the thesis is concluded with a discussion on the future work. Keywords: Virtual Learning Environment; Learning Analytics; Interaction; Engagement; Wearable Technology.
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Skillnader och likheter mellan könen, spelar det roll i teknikundervisningen? : En systematisk litteraturstudie om teknikämnet med inriktning på grundskolans tidigare år ur ett genusperspektivSunder, Johanna, Pilblad, Ida January 2019 (has links)
I denna konsumtionsuppsats var vårt syfte att undersöka vad forskningen säger om teknikämnets möjlighet att gynna elevers lärande utifrån ett genusperspektiv, men även hur läraren kan bidra till detta. Metoden som användes var en systematisk litteraturstudie och artiklarna redovisas utifrån en tematisk analys. Studien inkluderade forskning som handlar om teknikundervisning av barn och elever i åldrarna 3 till 13 år samt lärare som undervisar dessa åldrar. Av den tematiska analysen kunde fem teman uttydas: genus i teknikundervisningen, motivations inverkan på teknikundervisningen, lärarens betydelse, teknikämnets innehåll och arbetssätt i teknikämnet utifrån vilket resultatet presenteras. Resultatet av genomgången av befintlig forskning visar att de material som används bör vara könsneutralt. Undervisningen bör även vara anpassad efter individen och inte efter könsroller. Det kan vara en fördel om läraren innehar goda teknik- och genuskunskaper. Det framkommer även att kvinnliga lärare kan motivera flickor mer genom att vara tekniskt kompetenta.
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Technology education and non-scientific technological knowledgeNorström, Per January 2011 (has links)
This thesis consists of two essays and an introduction. The main theme is technological knowledge that is not based on the natural sciences.The first essay is about rules of thumb, which are simple instructions, used to guide actions toward a specific result, without need of advanced knowledge. Knowing adequate rules of thumb is a common form of technological knowledge. It differs both from science-based and intuitive (or tacit) technological knowledge, although it may have its origin in experience, scientific knowledge, trial and error, or a combination thereof. One of the major advantages of rules of thumb is the ease with which they can be learned. One of their major disadvantages is that they cannot easily be adjusted to new situations or conditions. Engineers commonly use rules, theories and models that lack scientific justification. How to include these in introductory technology education is the theme of the second essay. Examples include rules of thumb based on experience, but also models based on obsolete science or folk theories. Centrifugal forces, heat and cold as substances, and sucking vacuum all belong to the latter group. These models contradict scientific knowledge, but are useful for prediction in limited contexts where they are used when found convenient. The role of this kind of models in technology education is the theme of the second essay. Engineers’ work is a common prototype for pupils’ work with product development and systematic problem solving during technology lessons. Therefore pupils should be allowed to use the engineers’ non-scientific models when doing design work in school technology. The acceptance of these could be experienced as contradictory by the pupils: a model that is allowed, or even encouraged in technology class is considered wrong when doing science. To account for this, different epistemological frameworks must be used in science and technology education. Technology is first and foremost about usefulness, not about the truth or even generally applicable laws. This could cause pedagogical problems, but also provide useful examples to explain the limitations of models, the relation between model and reality, and the differences between science and technology. / <p>QC 20111118</p>
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In Search for Gender awareness in Technology EducationRooke, Gunilla January 2013 (has links)
This thesis consists of two essays and an introduction. The main theme is gender awareness in technology education and the theoretical standpoint is gender theory. The first essay examines the subject of technology in compulsory school, scrutinizes the status of gender awareness in technology education and what methods are used to break gender boundaries. By observations, interviews and questionnaire pupils’, teachers’ and school leaders’ apprehensions of technology and technology education are examined. The gender issue is known to everyone, but awareness in strategies and education methods is rather deficient. The already rather invisible subject of technology, lack of qualifications among teachers, material and methods obstructs gender awareness. To make changes the school leader has a key position. The second essay considers gender oriental recruitment actions for increasing the number of female students in higher technology education. The actions have been governmental, from the profession and from local schools. By literature studies actions are mapped and organized according to their physical and structural arena. Five arenas have been identified: square, mass, entrance, class room and board room. Actions at public arenas aimed to increase interest and change attitudes dominate. Structural actions, preferably initiated from the government, have been tried, often with good results. These actions challenge the power system at the board room and class room and are therefore met with resistance. / <p>QC 20130604</p>
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Fostering critical thinking dispositions in the Technology classroomJanse van Rensburg, Joalise January 2020 (has links)
The purpose of this study was to investigate and describe how technology teachers
foster a positive disposition towards Critical Thinking (CT) in their learners. One of
the general aims listed in the South African National Curriculum Statement (NCS)
specifically calls for the use of CT to enhance learners’ ability to identify and solve
problems. In the Curriculum and Assessment Policy Statement (CAPS) for
technology, CT is required to successfully solve problems during the design process.
The design process, which is central to technology, thus offers many opportunities to
nurture CT should teachers be willing to exploit them.
CT consists of two components, namely, CT skills and CT dispositions. CT skills refer
to the cognitive abilities of a person, while CT dispositions are concerned with an
individual’s internal motivation to think critically. A fair amount of research regarding
CT focuses on CT skills. The limited research available on CT dispositions reports
mostly on its definition, classification, and assessment. The paucity of literature on
CT dispositions suggest that teachers cannot draw from existing literature to inform
their practice regarding the ways in which one could foster a willingness to think
critically. This study, therefore, aimed to improve our understanding of the strategies
used by technology teachers to promote CT disposition. The conceptual framework
for this study was based on Facione’s (2011) seven dispositions towards CT, and
was augmented by a description of the design process in technology education. The
premise for using this framework is based on the assumption that if an individual is
positively disposed towards CT, they will be inclined to critically solve the problems
encountered during the design process in technology. The design process further
presents the opportunity to nurture CT dispositions.
This study engaged in a qualitative research approach and a multiple case study
design to investigate how technology teachers foster CT dispositions in their
learners. To this end, 10 senior phase technology teachers were purposefully
selected and interviewed. The interviews comprised open-ended questions about
each disposition to gain an in-depth understanding of the strategies that teachers use
in their classroom. Five of these teachers were then observed for one design-based
lesson to explore how these strategies are actualised in the technology classroom. The analysis of the interview data indicated that the participants used a variety of
strategies to foster all the CT dispositions. These strategies were also noted during
the observations, with no new strategies being revealed. The strategies included the
use of assessments, discussions, the classroom environment, examples, feedback,
modelling, questioning and resources. It was found that the participants used four
main strategies as initial actions that acted as a platform for, or led to the use of
supporting strategies to foster all of the CT dispositions.
Through this study, some strategies that were identified in the literature regarding the
nurturing of CT, its skills and dispositions were confirmed. Other strategies were
identified as relating to the principles for teaching CT dispositions, while two
strategies were recognised that were not mentioned in the literature. It is
recommended that further research be conducted on the effectiveness of these
strategies, learners’ experience of the strategies, and that longer periods of
observation be done to include the facilitation of the entire design process.
The research on CT dispositions up until this point has not suggested or described
explicit strategies to specifically foster the dispositional component of CT. The
findings and conclusions of this study are also not considered as the final answer to
this paucity of literature, it does, however, pose as a departure point for further
investigation and development. / Dissertation (MEd)--University of Pretoria 2020. / pt2021 / Science, Mathematics and Technology Education / MEd / Unrestricted
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Extended Information processing of Technology Education learners during the early phases of the design processBlom, Nicolaas Willem January 2015 (has links)
The purpose of my study was to describe the manner in which Grade 9 technology learners typically
accessed and used information sources during the early phases of their design processes. I did this
by using an Extended Cognition framework to study the internal and external information sources
that learners typically accessed and used in a technology learning environment. Theoretically, my
study aimed to develop the application of the Extended Cognition Theory in an educational
context. In this manner, my study adds to the scarce literature on design cognition in technology
education. The methodological purpose of this study was to adapt conventional Think Aloud
Protocol methods (TAPS) to investigate groups of learners in their natural technology learning
environment. This methodology enabled me to understand the link between theoretical and
empirical approaches of design cognition. As such, I was able to conceptualise practical guidelines
that could be used by technology lecturers and teachers for the effective facilitation of the early
phases of design processes.
The conceptual framework of my study was adapted from empirical studies of expert designers, and
is underpinned by the Information Processing and Embodiment theories. I followed a concurrent
mixed methods approach and employed a case study design applying pragmatic assumptions. The
target population for this study comprised Grade 9 learners based in a low socio-economic region.
Eight female participants were purposefully selected and conveniently clustered into three groups:
two groups of three participants, and one group of two participants. Data collection therefore
consisted of three separately video recorded protocol studies. I was able to elicit the information
access and usage activities of the participants by providing them with a design task that I adapted
from a prescribed textbook, as suggested for technology by the Department of Basic Education.
During the video recordings of the participants’ design processes, I was able to collect concurrent
verbal, visual and temporal data types. I analysed the data according to a five-level framework,
also adapted from the empirical investigations of expert designers.
During my quantitative data analysis, I identified the occurrences of each group of participants’
cognitive phases, as well as the occurrences of their information access and use activities during
each cognitive phase. On the one hand, problem structuring did not occur regularly. However,
during their problem structuring activities, the participants mainly accessed and used instructions
contained in the design task and pictures. On the other hand, the participants predominantly
exhibited problem solving cognitive phases in which they mainly accessed and used external
information sources including pictures and sketches. During my qualitative data analysis, I traced how the participants transformed their understanding of
the design problem and possible design solutions. During problem structuring, the participants
accessed information about the users’ needs, the design context and design objectives by
perceiving and recognising useful information in their design task instructions and pictures.
Information use during problem structuring was evidenced when the participants transformed
information that they accessed to propose design objectives, constraints and requirements.
Accessed information was typically transformed when the participants: (1) Read/evaluated
information from the design task; (2) Evaluated the problem/context; (3) Evaluated/Elaborated
information about the design objective; (4) Justified a design requirement; (5) Proposed/justified a
design constraint; (6) Evaluated/Elaborated available resources in the environment; (7) Elaborated
on the design context. During problem solving, the participants accessed information about the
function, behaviour and structure of possible design solutions by perceiving and recognising useful
information, primarily in their sketches, 3D models and pictures. Information use during problem
solving was evidenced when the participants transformed accessed information to propose design
specifications and limitations. Accessed information was typically transformed when the
participants: (1) Evaluated existing solutions; (2) Proposed design limitations; (3) Modified existing
solutions; (4) Proposed/evaluated a design idea; (5) Elaborated on a design idea; (6) Justified ideas;
(7) Qualified ideas; (8) Modified previous design ideas.
From the findings of my study, I could develop practical guidelines for current and future technology
teachers. These guidelines should help technology teachers to effectively facilitate information rich
design thinking during the early phases of learners’ design processes. I conclude this study by
reiterating that the participants’ design cognition was enhanced by the availability of various
information sources. This implies that technology teachers play a central role as information providers
and mediators. Failure to provide adequate information sources during design tasks might inhibit
learners’ development of the proficient design skills intended by the technology Curriculum and
Assessment Policy Statement (CAPS) document. / Dissertation (MEd)--University of Pretoria, 2015. / National Research Foundation (NRF) / Science, Mathematics and Technology Education / MEd / Unrestricted
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Datorplattor i en förskolekontext : med fokus på teknikundervisning inklusive programmeringOtterborn, Anna January 2020 (has links)
Society has undergone major and revolutionary changes in a relatively short time, where the individual is surrounded by and has become increasingly dependent on digital technology and programmed objects. The availability of digital tools such as digital tablets (e.g. iPads) has increased significantly in the Swedish preschool, even though research in this area is limited. It is therefore of utmost importance to examine how teachers use digital tablets to support children's learning, both in general but also in relation to technology education, where the latter also includes computer programming. This thesis intends to contribute to such an examination in the form of two studies. In study 1, an online survey was used that consisted of 26 questions that were sent across Sweden and in which 327 respondents participated. Questions were posed about how teachers work with digital tablets together with preschool children. Specifically, the following research questions were raised: What educational activities with digital tablets do teachers engage in Swedish preschools? What are teachers’ views of the educational benefits and disadvantages of using digital tablets in teaching? and, What are teachers’ recommendations for using digital tablets in their teaching practice? In study 2, another online survey was developed based on the findings from study 1 and contained 16 questions that resulted in 199 responses from across Sweden. In study 1, teacher responses around programming proved prominent, which study 2 aimed to explore more deeply. Therefore, the survey questions adopted in the second study probed how preschool teachers implemented programming activities during preschool teaching. Results from the two studies showed that despite a lack of competence, equipment and support from school leadership, numerous teachers often develop and use their own initiative to integrate digital tablet and programming activities in preschool. Teachers communicated several advantages of programming activities with respect to children's learning, aspects that were linked to the notions of 21st century skills and computational thinking. When it comes to methods for designing and implementing activities in practice, several connections to Papert's constructionism were seen as meaningful for the children, where activities contained a large degree of project based work with room for promoting children's agency. The results of the research clearly indicates that solid teacher-initiated work with digital tools as pedagogical resources is underway in earnest across Swedish preschools. In order to realize the advantages of teachers’ development of digital tablet activities for learning, teachers must be provided with prerequisite support necessary for an optimal integration of digitization tools into preschool education. In this regard, teachers should be offered competence development, as well as time for effective implementation, planning and follow-up. Access to appropriate digital tools is also a proviso for realizing this mandate. Increased collaboration between school managers and teachers would also further steer such initiatives in a positive pedagogical direction.
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Teacher Certification in Technology Education: Differences in Testing Scores of Alternative and Traditional Certified TeachersAvant, Kenya S. 01 January 2015 (has links)
New Jersey has utilized alternative certification to combat the shortage caused by technology education (TE) teacher attrition. Research has examined the effectiveness of alternative certification preparation programs for the core academic programs; however, very little research has been performed in the area of TE. The purpose of this study was to (a) evaluate the Praxis scores of teacher candidates in New Jersey seeking licensure in technology education, and (b) determine if there were differences between the TE among teachers completing different preparation programs. The theoretical framework that guided this quantitative study was rooted in Knowles' theory of andragogy, which supported learning methods for the teacher as a learner. The guiding question of this study was whether there existed a significant difference in Praxis II test scores among group A (traditionally certified teachers) versus group B (alternatively certified teachers).
This causal-comparative design took place among 164 TE teacher candidates from the 2 groups. Instrumentation was a praxis assessment for TE teacher candidates. Data collection included a random sampling of archival scores on the TE test that were analyzed with a t test. Findings revealed that teachers who completed the alternative route preparatory programs (group B) scored within a similar narrow range as compared to the TE teachers completing the traditional preparatory programs (group A). Implications for positive social change include providing the Teacher Advisory Mentor Program (TAMP) for TE teachers, which may reduce attrition of TE teachers and facilitate more effective teaching in the classroom.
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