Abstract
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.
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Notes
The New Zealand Curriculum differentiates 8 levels of learning across years 0–13. These are loosely aligned to 2 years of learning from levels 1–5 and then single years from levels 6–8. However, it is acknowledged that students’ progress at different rates, and as such, any age-level relationships are indicative only.
This is a different framework to the New Zealand Curriculum. NZQF levels run from Level 1–10 and provide pathways into the tertiary sector up to Doctorate level. There is an overlap between these two frameworks with Level 6 NZC equating to Level 1 NZQF, Level 7 NZC equating to Level 2 NZQF and Level 8 NZC equating to Level 3 NZQF.
Level 1 Achievement Standards will be available as assessment tools in 2011, Level 2 Achievement Standards will be available as assessment tools in 2012, and Level 3 Achievement Standards will be available as assessment tools in 2013.
NCEA is a standards based qualification. It was introduced in New Zealand in 2002 and replaced the previous norm-referenced qualification system.
The components of the Technological Knowledge strand are: Technological Modelling, Technological Products and Technological Systems. The components of the Nature of Technology strand are: Characteristics of Technology and Characteristics of Technological Outcomes.
We are using ‘ideas’ here as a collective term—in some cases the ‘ideas’ are rather a lack of ideas or an inability to identify or differentiate.
References
Alexander, P. A. (2003). The development of expertise: The journey from acclimation to proficiency. Educational Researcher, 32(8), 10–14.
Alexander, P. A. (2006). The path to competence: A lifespan developmental perspective on reading. Journal of Literacy Research, 37, 413–436.
Compton V. J. (2007). A new technological literacy. Paper provided as part of the Ministry of Education Curriculum Support Package published on Techlink at http://www.techlink.org.nz/curriculum-support/literacy/index.htm.
Compton, V, J., & Compton, A. (2009). Technological Knowledge and the nature of technology: Establishing the nature of progression. In Proceedings of the pupils’ attitudes towards technology (PATT 22) international design and technology education conference: Strengthening technology in the school curriculum. August 24–28 2009, Delft, The Netherlands.
Compton, V, J., & Compton, A. (2011a) Progression in the knowledge and philosophy of technology. Chapter in Marc. J. de Vries (Ed.), Positioning technology education in the curriculum. International Technology Education Series Volume 8. The Netherlands: Sense Publishing.
Compton, V, J., & Compton, A. (2011b) Teaching the nature of technology: Determining and supporting student learning of the philosophy of technology. International Journal of Technology and Design Education. Published online 20 August 2011.
Compton V. J., & France B. (2007). Redefining technological literacy in New Zealand: From concepts to curriculum constructs. Paper presented at the pupils’ attitudes towards technology (PATT) international design & technology education conference: Teaching and learning technological literacy in the classroom. 21–25 June 2007, Glasgow, Scotland. Published in conference proceedings, pp. 260–272.
Compton, V. J., & Harwood, C. D. (2005). Progression in technology education in New Zealand: Components of practice as a way forward. International Journal of Design and Technology.
Ministry of Education. (2007). The New Zealand curriculum. Wellington, New Zealand: Learning Media. http://www.learningmedia.co.nz.
Acknowledgments
We would like to thank all the teachers and students involved in this research. Their willingness to share their thinking with us was critical to the success of this project. We are thankful to the New Zealand Ministry of Education for funding the TKNoT: Imps research specifically, and acknowledge the high level of support they provide technology education through funding ongoing research and curriculum development.
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Compton, V.J., Compton, A.D. Teaching Technological Knowledge: determining and supporting student learning of technological concepts. Int J Technol Des Educ 23, 637–674 (2013). https://doi.org/10.1007/s10798-012-9208-6
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DOI: https://doi.org/10.1007/s10798-012-9208-6