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"Compton, Vicki"
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Bringing Communities Together
This book focuses on science and technology connective ventures and the complexity inherent in bringing such worlds together. . The authors have been 'in the business' of developing such connections and this book brings them together to describe how and why making connections can support the science/technology education sector, the technology/science communities, and the wider sociocultural life we all inhabit. A range of illustrative examples of connections-in-action provide an empirical basis from which to explore and gain insight into the issues for and potential of such connective ventures, alongside a rich mix of critical commentary, arguments, cautions and challenges.
eBook
Teaching Technological Knowledge: determining and supporting student learning of technological concepts
This paper reports on findings related to Technological Knowledge from Stage Two of the
Technological Knowledge and Nature of Technology: Implications for teaching and learning
(
TKNoT: Imps
) research project undertaken in 2009. A key focus in Stage Two was the trialing of different teaching strategies to determine how learning related to the components Technological Modelling (TM), Technological Products (TP) and Technological Systems (TS) could be supported. These components fall within the Technological Knowledge (TK) strand of technology in the New Zealand Curriculum (NZC) (Ministry of Education,
2007
) and as such, reflect the key generic concepts or ‘big ideas’ of technology. During this stage of the research further exploration was also undertaken to determine how student understanding of these three components of technology education progressed from level 1 to 8 of the NZC (Ministry of Education,
2007
). This resulted in a significant review of the Indicators of Progression for TM, TP and TS, providing clarification of the nature of the progression expected of students in each component as well as increased teacher guidance to support such progression. Common misconceptions, partial understandings and alternative concepts related to these components were confirmed and explained and five case studies were developed to illustrate strategies employed by teachers and their impact on student learning related to these three components.
Journal Article
Teaching the nature of technology: determining and supporting student learning of the philosophy of technology
This paper reports on findings related to the Nature of Technology from Stage Two of the
Technological Knowledge and Nature of Technology
:
Implications for teaching and learning
(
TKNoT
:
Imps
) research project undertaken in 2009. A key focus in Stage Two was the trialing of different teaching strategies to determine how learning related to the components Characteristics of Technology (CoT) and Characteristics of Technological Outcomes (COTO) could be supported. These components fall within the Nature of Technology (NoT) strand of technology in the New Zealand Curriculum (NZC) (Ministry of Education,
2007
) and as such, reflect a philosophical understanding of technology as a discipline. During this stage of the research further exploration was undertaken to determine how student understanding of these two components of technology education progressed from level 1 to level 8 of the NZC (Ministry of Education,
2007
). Common misconceptions and partial understandings related to these components are identified and explained and four case studies are presented to illustrate strategies employed by teachers and their impact on student learning related to these two components. The Stage Two outcomes resulted in the revision of the Indicators of Progression for CoT and CoTO in order to clarify the progression expected of students in each component and provide increased teacher guidance to support such progression.
Journal Article
Understanding modelling in technology and science: the potential of stories from the field
This paper tells the story of how two biotechnologists used models, one working as a technologist and the other as a scientist. These stories were collected during the development of the key ideas about the nature of technology and technological knowledge during the latest curriculum development in New Zealand. Their stories of how and why they used models provided insight into the different role of modelling in technology and science. This difference can be linked to the fundamental difference between technology as a discipline that attempts to intervene in the world and create something other, and science as a discipline that attempts to explain the world. The stories illustrate the differences in the purpose, outcome and the underpinning reasoning across technology and science. We suggest that using such stories supports learning about the nature of technology and the nature of science and provides an opportunity to add a critical dimension to the development of technological literacy and scientific literacy.
Journal Article
The development of relational reasoning in primary and secondary school students: a longitudinal investigation in technology education
For several decades, there has been a push to advance students’ knowledge and abilities in science, technology, engineering, and mathematics (STEM). One capacity that has been linked positively to STEM achievement is relational reasoning, which involves identifying associations between objects, ideas, and situations. Yet, few studies have examined relational reasoning and its component forms (i.e., analogy, anomaly, antinomy, antithesis) within the domain of technology or how these abilities might change over time. The present study explored the development of primary and secondary school students’ relational reasoning over a period of 2 years as they interacted with technological objects. Participants (n = 59) were a subset of a nationally representative random sample between 5 and 18 years old. Students met with a researcher to discuss the form and function of a familiar and unfamiliar technological object at two time points. Results demonstrated that students of all ages used relational reasoning to identify associations between objects’ functionality and form, but that the types and amounts of relational reasoning varied by grade group, time, and object familiarity. This study has implications for researchers and practitioners interested in the development of relational reasoning and technological literacy, and suggests possible ways of enhancing both.
Journal Article
Enhancing Technological Practice: An Assessment Framework for Technology Education in New Zealand
The stated aim of technology education in New Zealand is to develop students' level of technological literacy. This paper introduces the Technology Assessment Framework (TAF) as an organisational tool for the development and delivery of technology programmes that focus on increasing students' technological literacy through the enhancement of their technological practice across technological areas and contexts. The TAF was developed and refined in 1999 and 2000 as part of a two year New Zealand Ministry of Education funded research project, and integrated within a national professional development programme in 2000 designed for preservice and inservice teacher educators in New Zealand. This paper backgrounds the sociocultural theoretical position of the TAF and explains how it reflects and furthers the aim of technology education in New Zealand. The TAF is then presented and explained with the aid of illustrative examples from classroom practice.[PUBLICATION ABSTRACT]
Journal Article
Progression in Technology Education in New Zealand: Components of Practice as a Way Forward
Understanding and undertaking technological practice is fundamental to student learning in technology education in New Zealand, and the enhancement of student technological literacy. The implementation of technology into New Zealand's core curriculum has reached the stage where it has become critical that learning programmes are based on student progression to allow for a seamless education in technology from early primary to senior secondary. For this to occur, teachers and students need to focus learning on key features of technology education. This paper is based on research initiated in 2001 which explored the nature of progression of student learning in technology. It draws on findings from research undertaken in New Zealand classrooms in 1999-2000 that resulted in the development of the technology assessment framework (TAF), (as reported in detail Compton & Harwood 2003). The 1999-2001 research was funded by the New Zealand Ministry of Education. Findings from the 2001 research allowed for the identification of key features of technology education that are relevant across all age groups, contexts and technological areas. These key features were collectively termed \"components of practice\". The three \"components of practice\" established to date are \"brief\" development, \"planning for practice\", and \"outcome development and evaluation\". This paper discusses the development of progression matrices for each of these and provides illustrative examples of student work levelled against the matrix indicators of progression for \"brief development\".
Journal Article
Enhancing Technological Practice: An Assessment Framework for Technology Education in New Zealand
The stated aim of technology education in New Zealand is to develop students' level of technological literacy. This paper introduces the Technology Assessment Framework (TAF) as an organisational tool for the development and delivery of technology programmes that focus on increasing students' technological literacy through the enhancement of their technological practice across technological areas and contexts. The TAF was developed and refined in 1999 and 2000 as part of a two year New Zealand Ministry of Education funded research project, and integrated within a national professional development programme in 2000 designed for preservice and inservice teacher educators in New Zealand. This paper backgrounds the sociocultural theoretical position of the TAF and explains how it reflects and furthers the aim of technology education in New Zealand. The TAF is then presented and explained with the aid of illustrative examples from classroom practice.
Journal Article
Towards a Model for Teacher Development in Technology Education: From Research to Practice
Reports on interventions in New Zealand elementary and secondary schools to enhance the teaching and learning of technology as a new learning area. Discusses ways in which researchers worked with teachers to introduce technological activities into the classroom, and teachers' reflections on this process. (Author/LRW)
Journal Article