研究生: |
李宏盈 Lee, Hung-Ying |
---|---|
論文名稱: |
高中生體育學習概念量表編制之研究 A Study on the Development of the Conceptions of Learning Physical Education Scale for High School Students |
指導教授: |
掌慶維
Chang, Ching-Wei |
口試委員: |
掌慶維
Chang, Ching-Wei 程瑞福 Chen, Jui-Fu 許光麃 Hsu, Kuang-Piao 周建智 Chou, Chien-Chih 鄭漢吾 Cheng, Han-Wu |
口試日期: | 2024/05/31 |
學位類別: |
博士 Doctor |
系所名稱: |
體育與運動科學系 Department of Physical Education and Sport Sciences |
論文出版年: | 2024 |
畢業學年度: | 112 |
語文別: | 中文 |
論文頁數: | 147 |
中文關鍵詞: | 高中生 、學習概念 、身體素養 、體育學習概念 、量表開發 |
英文關鍵詞: | high school students, conceptions of learning, physical literacy, conceptions of learning physical education, scale development |
研究方法: | 調查研究 、 德爾菲法 、 半結構式訪談法 、 現象圖示學 |
DOI URL: | http://doi.org/10.6345/NTNU202400689 |
論文種類: | 學術論文 |
相關次數: | 點閱:106 下載:22 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
本研究旨在建構「高中生體育學習概念量表」,透過三階段分別進行。首先,透過立意取樣方式,針對 45 位高中生進行個別半結構式訪談,瞭解其對體育學習之觀點,並透過現象圖示學 (phenomenography) 方式進行分析,建立體育學習概念量表初步之結構與題項,包含技能測驗、技能練習、從事身體活動、增加運動知識、理解運動知能、內省的身體實踐、以新的角度看待身體。其次,邀集 8 位體育與運動教育之專家學者,進行德懷術座談會議,以修正量表之內容,並確立七大體育學習概念結構與題項。第三,採取立意取樣之方式,調查臺灣北、中、南與東部之高中生,共計收回 2212 份問卷,透過探索性與驗證性因素分析,最終建構出具信度與效度之體育學習概念量表。基於上述,本研究確立了高中生七大體育學習概念,可讓學生自我評估其體育學習概念,亦可供高中體育課程與教學實踐之參酌。
The purpose of this study was to construct the "Conceptions of Learning Physical Education Scale (CoLPES)" for senior high school students. This process involved three stages. First, semi-structured interviews were conducted with 45 high school students, selected through purposive sampling, to explore their perceptions of learning physical education. Phenomenographic analysis of the data led to the establishment of the initial CoLPES structure and items, including skill testing, motor skills acquisition, engaging physical activity, increasing knowledge of sports, sports knowledge integration, embodiment practice, and seeing the physical in a new way. Second, a Delphi technique discussion with eight experts in physical education and sport pedagogy refined the scale and confirmed its structure and items. Third, a survey of 2212 high school students from across Taiwan (north, central, south, and east) was conducted using purposive sampling. Exploratory and confirmatory factor analyses were employed to establish the final CoLPES, demonstrating its reliability and validity. Based on the above, this study identified seven major conceptions of learning physical education for high school students. The CoLPES can allow students to self-assess their conceptions of learning and can also inform curriculum development and teaching practices in high school physical education.
李宏盈、掌慶維、鍾啟暘 (2020)。虛擬實境輔助體育課羽球教學之研究。體育學報,53(4),375-391。
余舜德 (2009)。身體修煉與文化學習:以學茶為例。臺灣人類學刊,7(2),49-86。
余舜德 (2011)。Embodied cognition 的觀點對認知人類學的啟發。臺灣人類學刊,9(1),205-208。
吳璧純、詹志禹 (2018)。從能力本位到素養導向教育的演進、發展及反思。教育研究與發展期刊,14 (2),35-64。
林靜萍 (2018)。從技能到素養-三波教育改革中體育課程目標與教材的演變。學校體育,168,5-13。
陳鵬仁 (2022)。從 Dewey 身心觀點思考身體素養的體育。臺灣教育評論月刊,11(1),141-148。
教育部 (2018)。十二年國民基本教育課程綱要總綱。臺北市。
教育部 (2018)。十二年國民基本教育課程綱要國民中小學暨普通型高級中等學校-健康體育領域。臺北市。
許義雄 (2017)。現代體育學原理 (上冊) 基本概念。新北市:揚智
許義雄 (2020)。臺灣0-100歲國民身體素養之展望。學校體育,177,103-119。
程瑞福 (2021)。新課綱如何讓體育課變得更有趣。學校體育,183,2-4。
掌慶維 (2021)。素養導向職前體育師資培育課程與教學—理念與實務。臺灣師範大學出版中心。
詹恩華、闕月清、掌慶維 (2017)。素養導向體育課程評析:以英國、加拿大、美國、澳洲為例。大專體育,143,1-13。
詹恩華、闕月清、掌慶維 (2020)。十二年國教下身體素養核心概念的理解。課程與教學,23(3),59-84。
鄧振源(2012)。多準則決策分析:方法與應用初版。臺北市:鼎茂。
蔡清田 (2014)。國民核心素養:十二年國教課程改革的DNA。臺北市:高等教育出版社。
顏志龍、鄭中平 (2017)。傻瓜也會寫論文 (量化+質化增訂版):社會科學學位論文寫作指南。臺北市:五南圖書。
Al-Abdullatif, A. M. (2019). Auditing the TPACK confidence of pre-service teachers: The case of Saudi Arabia. Education and Information Technologies, 24(6), 3393-3413.
Alharbi, H. E. (2019). An Arabic Assessment Tool to Measure Technological Pedagogical and Content Knowledge. Computers & Education, 142, 103650.
Andrews, D. L. (2008). Kinesiology's inconvenient truth and the physical cultural studies imperative. Quest, 60(1), 45-62.
Aspen Institute (2015). Physical literacy: A global environmental scan. DC: Author.
Azzarito, L., Simon, M., & Marttinen, R. (2017). ‘Up against whiteness’: Rethinking race and the body in a global era. Sport, Education and Society, 22(5), 635-657.
Bailey, R. (2021). Defining physical literacy: making sense of a promiscuous concept. Sport in Society, 25(1), 163-180.
Bailey, R., Armour, K., Kirk, D., Jess, M., Pickup, I., Sandford, R., & Education, B. P. (2009). The educational benefits claimed for physical education and school sport: an academic review. Research Papers in Education, 24(1), 1-27.
Beavers, A. S., Lounsbury, J. W., Richards, J. K., Huck, S. W., Skolits, G. J., & Esquivel, S. L. (2019). Practical considerations for using exploratory factor analysis in educational research. Practical Assessment, Research, and Evaluation, 18(1), 1-12.
Brinkmann, M., & Giese, M. (2023). Practising the practice. Towards a theory of practising in physical education from a Bildung-theoretical perspective. Physical Education and Sport Pedagogy, 1-14.
Brown, G. T., & Wang, Z. (2013). Illustrating assessment: How Hong Kong university students conceive of the purposes of assessment. Studies in Higher Education, 38(7), 1037-1057.
Buehl, M. M., & Alexander, P. A. (2001). Beliefs about academic knowledge. Educational Psychology Review, 13, 385-418.
Burnett, P. C., Pillay, H., & Dart, B. C. (2003). The influences of conceptions of learning and learner self-concept on high school students' approaches to learning. School Psychology International, 24(1), 54-66.
Byrne, M., & Flood, B. (2004). Exploring the conceptions of learning of accounting students. Accounting Education, 13(1), 25-37.
Cairney, J., Dudley, D., Kwan, M., Bulten, R., & Kriellaars, D. (2019). Physical literacy, physical activity and health: toward an evidence-informed conceptual model. Sports Med, 49(3), 371-383.
Cano, F., & Cardelle-Elawar, M. (2004). An integrated analysis of secondary school students’ conceptions and beliefs about learning. European Journal of Psychology of Education, 19, 167-187.
Chang, H. Y., & Tsai, C. C. (2023). Epistemic Network Analysis of Students’ Drawings to Investigate Their Conceptions of Science Learning with Technology. Journal of Science Education and Technology, 32(2), 267-283.
Chen, A. (2015). Operationalizing physical literacy for learners: Embodying the motivation to move. Journal of Sport and Health Science, 4, 125-131.
Chen, S. T., Tang, Y., Chen, P. J., & Liu, Y. (2020). The development of Chinese assessment and evaluation of physical literacy (CAEPL): A study using delphi method. International Journal of Environmental Research and Public Health, 17, 20-27.
Chen, A. J., & Pajares, F. (2010). Implicit theories of ability of Grade 6 science students: Relation to epistemological beliefs and academic motivation and achievement in science. Contemporary Educational Psychology, 35, 75-87.
Chiou, G. L., Lee, M. H., & Tsai, C. C. (2013). High school students’ approaches to learning physics with relationship to epistemic views on physics and conceptions of learning physics. Research in Science & Technological Education, 31(1), 1-15.
Chiou, G.-L., & Liang, J.-C. (2012). Exploring the structure of science self-efficacy: A model built on high school students’ conceptions of learning and approaches to learning science. The Asian-Pacific Education Researcher, 21(1), 83-91.
Corbin, C. B. (1993). The field of physical education—Common goals, not common roles. Journal of Physical Education, Recreation & Dance, 64(1), 79-87.
Corbin, C. B. (2016). Implications of physical literacy for research and practice: A commentary. Research Quarterly for Exercise and Sport, 87(1), 14-27.
Dahl, T. I., Bals, M., & Turi, A. L. (2005). Are students' beliefs about knowledge and learning associated with their reported use of learning strategies? British Journal of Educational Psychology, 75(2), 257-273.
Dahlgren, L. O., & Marton, F. (1978). Students' conceptions of subject matter: an aspect of learning and teaching in higher education. Studies in Higher Education, 3(1), 25-35.
Dahlin, B., & Regmi, M. P. (1997). Conceptions of learning among Nepalese students. Higher Education, 33(4), 471-493.
Dart, B. C., Burnett, P. C., Purdie, N., Boulton-Lewis, G., Campbell, J., & Smith, D. (2000). Students' conceptions of learning, the classroom environment, and approaches to learning. The Journal of Educational Research, 93(4), 262-270.
Dewey, J. (1929). Experience and Nature. London: GEORGE ALLEN & UNWIN, LTD
Duell, O. K., & Schommer-Aikins, M. (2001). Measures of people's beliefs about knowledge and learning. Educational Psychology Review, 13, 419-449.
Durden-Myers, E. J., Green, N. R., & Whitehead, M. (2018). Implications for promoting physical literacy. Journal of Teaching in Physical Education, 37, 262-271.
Edwards, L. C., Bryant, A. S., Keegan, R. J., Morgan, K., Cooper, S., & Jones, A. M. (2018). ‘Measuring’ physical literacy and related constructs: A systematic review of empirical findings. Sport Medicine, 48, 659-682.
Ehrlén, K. (2009). Drawings as representations of children's conceptions. International Journal of Science Education, 31(1), 41-57.
Eklund-Myrskog, G. (1998). Students’ conceptions of learning in different educational contexts. Higher Education, 35, 299-316.
Elliott, D. (2007). Forty years of kinesiology: A Canadian perspective. Quest, 59(1), 154-162.
Ennis, C. D. (2015). Knowledge, transfer, and innovation in physical literacy curricula. Journal of Sport and Health Science, 4(2), 119-124.
Entwistle, N. (1997). Introduction: Phenomenography in higher education. Higher Education Research & Development, 16(2), 127-134.
Entwistle, N. J., & Peterson, E. R. (2004). Conceptions of learning and knowledge in higher education: Relationships with study behaviour and influences of learning environments. International Journal of Educational Research, 41(6), 407-428.
Fabrigar, L. R., & Wegener, D. T. (2012). Structural equation modeling. In Applied multivariate statistics for the social sciences (pp. 549-594). Routledge.
Fletcher, T., & Ní Chróinín, D. (2022). Pedagogical principles that support the prioritisation of meaningful experiences in physical education: conceptual and practical considerations. Physical Education and Sport Pedagogy, 27(5), 455-466.
Fornell, C., & Larcker, D. F. (1981). Evaluating structural equation models with unobservable variables and measurement error. Journal of marketing research, 18(1), 39-50.
Francesconi, D., & Tarozzi, M. (2019). Embodied education and education of the body: The phenomenological perspective. Leib-Leiblichkeit-Embodiment: Pädagogische Perspektiven auf eine Phänomenologie des Leibes, 229-247.
Gately, P. (2010). Physical literacy and obesity. In: M. W, ed. Physical Literacy: Throughout the Lifecourse. England, UK: Routledge.
Giese, M. (2008). Erfahrung als Bildungskategorie: eine sportsemiotische Untersuchung in unterrichtspraktischer Absicht. Meyer & Meyer Verlag.
Gill, D. L. (2007). Integration: The key to sustaining kinesiology in higher education. Quest, 59(3), 269-286.
Green, B., Jones, M., Hughes, D., & Williams, A. (1999). Applying the Delphi technique in a study of GPs’ information requirements. Health & Social Care in the Community, 7(3), 198-205.
Green, K. (2014). Mission impossible? Reflecting upon the relationship between physical education, youth sport and lifelong participation. Sport, education and society, 19(4), 357-375.
Green, N. R., Roberts, W. M., Sheehan, D., & Keegan, R. J. (2018). Charting physical literacy journeys within physical education settings. Journal of Teaching in Physical Education, 37, 272-279.
Haggis, T. (2003). Constructing images of ourselves? A critical investigation into ‘approaches to learning’ research in higher education. British Educational Research Journal, 29(1), 89-104.
Hair Jr, J. F., Sarstedt, M., Ringle, C. M., & Gudergan, S. P. (2017). Advanced issues in partial least squares structural equation modeling. SAGE publications.
Harrison, J. M., & Blakemore, C. L. (1989). Instructional strategies for secondary school physical education. McGraw-Hill Humanities, Social Sciences & World Languages.
Harvey, L., & Knight, P. T. (1996). Transforming Higher Education. Open University Press.
Hay, P., & Penney, D. (2013). Assessment in physical education: A sociocultural perspective. London, England/New York, NY: Routledge/Taylor and Francis.
Healthy Active Living and Obesity Research Group. (2013). Canadian Assessment of Physical Literacy: Manual for test administration. Retrieved from https://www.capl-ecsfp.ca/ wp-content/uploads/capl-manual-english.pdf
Healthy Active Living and Obesity Research Group. (2017). Canadian Assessment of Physical Literacy: Manual for test administration. Retrieved from https://www.capl-eclp.ca/wp-content/uploads/2017/10/capl-2-manual-en.pdf
Henseler, J., Dijkstra, T. K., Sarstedt, M., Ringle, C. M., Diamantopoulos, A., Straub, D. W., ... & Calantone, R. J. (2014). Common beliefs and reality about PLS: Comments on Rönkkö and Evermann (2013). Organizational research methods, 17(2), 182-209.
Ho, H. N. J., Liang, J. C., & Tsai, C. C. (2022). The interrelationship among high school students’ conceptions of learning science, self-regulated learning science, and science learning self-efficacy. International Journal of Science and Mathematics Education, 20, 943-962.
Hofer, B. K, & Pintrich, P. R. (1997). The development of epistemological theories: beliefs about knowledge and knowing and their relation to learning. Review of Educational Research, 67, 88-140.
Hooper. D., Coughlan. J., & Mullen. M. (2008). Structural equation modelling: Guidelines for determining model fit. Electronic Journal of Business Research Methods, 6(1), 53-60.
Hsieh, W. M., & Tsai, C. C. (2017). Exploring students’ conceptions of science learning via drawing: a cross-sectional analysis. International Journal of Science Education, 39(3), 274-298.
Hsieh, W. M., & Tsai, C. C. (2018). Learning illustrated: An exploratory cross-sectional drawing analysis of students' conceptions of learning. The Journal of Educational Research, 111(2), 139-150.
Huang, W. L., Li, L. Y., & Tsai, C. C. (2022). Exploring undergraduate students’ conceptions of learning via auto‐photography: A cross‐sectional analysis. British Educational Research Journal, 48(1), 160-181.
Hyndman, B., SueSee, B., McMaster, N., Harvey, S., Jefferson-Buchanan, R., Cruickshank, V., d Barnes, M., & Pill, S. (2019) Physical education across the international media: a five-year analysis. Sport, Education and Society, 25(3), 274-291.
International Physical Literacy Association (IPAL). (2017). International Physical Literacy Association homepage. Retrieved from https://www.physical-literacy.org.uk.
Jennrich, R. I., & Bentler, P. M. (2012). Exploratory bi-factor analysis: The oblique case. Psychometrika, 77(3), 442-454.
Kenny, D. A., Kaniskan, B., & McCoach, D. B. (2015). The performance of RMSEA in models with small degrees of freedom. Sociological Methods & Research, 44(3), 486-507.
Kirk, D. (2006). Leaners and learning in physical education. In D. Kirk, D. Macdonald, & M. O' Sullivan (Eds.), The handbook of physical education (pp. 189-190). SAGE Publications Ltd.
Kirk, D. (2013). Educational value and models-based practice in physical education. Educational Philosophy and Theory, 45(9), 973-986.
Kirk, D., & MacDonald, D. (2001). The social construction of PETE in higher education: Toward a research agenda. Quest, 53(4), 440-456.
Kline, R. B. (2005). Methodology in the social sciences. Principles and practice of structural equation modeling (2nd ed.). Guilford Press.
Larsson, H., & Karlefors, I. (2015). Physical education cultures in Sweden: Fitness, sports, dancing … learning? Sport, Education and Society, 20(5), 573-587.
Lee, M.-H., Johanson, R. E., & Tsai, C. C. (2008). Exploring Taiwanese high school students’ conceptions of and approaches to learning science through a structural equation modeling analysis. Science Education, 92(2), 191-220.
Li, J. (2003). US and Chinese cultural beliefs about learning. Journal of Educational Psychology, 95(2), 258-267.
Liang, J. C., Su, Y. C., & Tsai, C. C. (2015). The assessment of Taiwanese college students’ conceptions of and approaches to learning computer science and their relationships. The Asia-Pacific Education Researcher, 24, 557-567.
Liu, X. (2004). Using concept mapping for assessing and promoting relational conceptual change in science. Science Education, 88(3), 373-396.
Lin, T.-J., Deng, F., Chai, C.-S., Tsai, C.-C. (2013). High school students’ scientific epistemological beliefs, motivation in learning science, and their relationships: A comparative study within the Chinese culture. International Journal of Educational Development, 33, 37-47.
Lin, T. J., & Tsai, C. C. (2013). An investigation of Taiwanese high school students’ science learning self-efficacy in relation to their conceptions of learning science. Research in Science & Technological Education, 31(3), 308-323.
Lin, X. F., Deng, C., Hu, Q., & Tsai, C. C. (2019). Chinese undergraduate students' perceptions of mobile learning: Conceptions, learning profiles, and approaches. Journal of Computer Assisted Learning, 35(3), 317-333.
Liang, J. C., & Tsai, C. C. (2010). Relational analysis of college science‐major students’ epistemological beliefs toward science and conceptions of learning science. International Journal of Science Education, 32(17), 2273-2289.
Lobelo, F., Stoutenberg, M., & Hutber, A. (2014). The exercise is medicine global health initiative: A 2014 update. British Journal of Sports Medicine, 48(22), 1627-1633.
Longmuir, P. E., Boyer, C., Lloyd, M., Yang, Y., Boiarskaia, E., Zhu, W., & Tremblay, M. S. (2015). The Canadian assessment of physical literacy: Methods for children in grades 4 to 6 (8 to 12 years). BMC Public Health, 15, 767.
Lorusso, J. R., & Richards, K. A. R. (2018). Expert perspectives on the future of physical education in higher education. Quest, 70(1), 114-136.
Lounsbery, M. A. F., & McKenzie, T. L. (2015). Physically literate and physically educated: A rose by any other name? Journal of Sport and Health Science, 4, 139-144.
Lundvall, S. (2015). Physical literacy in the field of physical education- A challenge and possibility. Journal of Sport and Health Science, 4, 113-118.
Lundvall, S., & Fröberg, A. (2023). From individual to lifelong environmental processes: reframing health in physical education with the sustainable development goals. Sport, Education and Society, 28(6), 684-696.
Lundvall, S., & Gerdin, G. (2021). Physical literacy in Swedish physical education and health (PEH): What is (im)possible in becoming and being physically literate (educated)? Curriculum Studies in Health and Physical Education, 12(2), 140-155.
Lynch, S., & Sargent, J. (2020). Using the meaningful physical education features as a lens to view student experiences of democratic pedagogy in higher education. Physical Education and Sport Pedagogy, 25(6), 629-642.
Ma, R. S., Sum K.W., Hu, Y. N., & Gao, T. Y. (2020). Assessing factor structure of the simplified Chinese version of Perceived Physical Literacy Instrument for undergraduates in Mainland China. Journal of Exercise Science & Fitness, 18, 68-73.
Marshall, D., Summer, M., & Woolnough, B. (1999). Students’ conceptions of learning in an engineering context. Higher Education, 38, 291-309.
Marton, F. (1975). On non‐verbatim learning: 1. Level of processing and level of outcome. Scandinavian Journal of Psychology, 16(1), 273-279.
Marton, F. (1981). Phenomenography—describing conceptions of the world around us. Instructional Science, 10, 177-200.
Marton, F., Dall’alba, G., & Beaty, E. (1993). Conceptions of learning. International Journal of Educational Research, 19(3), 277-300.
Marton, F., & Säljö, R. (1976). On qualitative differences in learning: I—Outcome and process. British Journal of Educational Psychology, 46(1), 4-11.
Marton, F., Watkins, D., & Tang, C. (1997). Discontinuities and continuities in the experience of learning: An interview study of high-school students in Hong Kong. Learning and instruction, 7(1), 21-48.
Massengale, J. D. (2000). The nineteenth Dudley Allen Sargent commemorative lecture 1999: Doing PE at the new university. Quest, 52(1), 102-109.
McCuaig, L., & Quennerstedt, M. (2018). Health by stealth - Exploring the sociocultural dimensions of salutogenesis for sport, health and physical education research. Sport, Education and Society, 23(2), 111-122
McKenzie, T. L., & Lounsbery, M. A. F. (2014). The pill not taken: Revisiting physical education teacher effectiveness in a public health context. Research Quarterly for Exercise and Sport, 85(3), 287-292.
Mezirow, J. (2018). An overview of transformative learning. In K. Illeris (Ed.), Contemporary theories of learning: Learning theorists in their own words (pp. 90–105). Routledge.
Newell, K. M. (1990). Physical education in higher education: Chaos out of order. Quest, 42(3), 227-242.
Newell, K. M. (2007). Kinesiology: Challenges of multiple agendas. Quest, 59(1), 5-24.
Ní Chróinín, D., Fletcher, T., & O’Sullivan, M. (2018). Pedagogical principles of learning to teach meaningful physical education. Physical education and sport pedagogy, 23(2), 117-133.
Okoli, C., & Pawlowski, S. D. (2004). The Delphi method as a research tool: an example, design considerations and applications. Information & Management, 42(1), 15-29.
Ono, Y., & Kaji, M. (2020). Study on the concept of learning by elementary school students in physical education classes in Japan. Journal of Physical Education and Sport, 20(3), 1415-1422.
Organization for Economic Co-operation and Development [OECD]. (2018). The future of education and skills 2030. Paris, France: Author.
Organization for Economic Co-operation and Development [OECD]. (2019). OECD future of education 2030: Making physical education dynamic and inclusive for 2030-Internatinal curriculum analysis. Paris, France: Author.
Perry, W. G. (1970). Forms of Intellectual and Ethical Development in the College Years: A Scheme. New York: Holt, Rinehart and Winston.
Penedo, F. J., & Dahn, J. R. (2005). Exercise and well-being: a review of mental and physical health benefits associated with physical activity. Current Opinion in Psychiatry, 18(2), 189-193.
Penney, D., & Chandler, T. (2000). Physical education: What future (s)? Sport Education and Society, 5, 71-87.
Penney, D., & Jess, M. (2004). Physical education and physically active lives: A lifelong approach to curriculum development. Sport, Education and Society, 9(2), 269-287.
Physical Literacy Assessment for Youth. What Is PLAY? Available online: https://play.physicalliteracy.ca/what-play (accessed on 2 January 2021).
Pot, N., Whitehead, M., & Durden-Myers, E. (2018). Physical literacy from philosophy to practice. Journal of Teaching in Physical Education, 37, 246-251.
Pühse, U., Barker, D., Brettschneider, W. D., Feldmeth, A. K., Gerlach, E., McCuaig, L., McKenzie, T. L., & Gerber, M. (2011). International approaches to health-oriented physical education - Local health debates and differing conceptions of health. International Journal of Physical Education, 48(3), 2-15.
Purdie, N., & Hattie, J. (2002). Assessing students' conceptions of learning. Australian Journal of Educational and Developmental Psychology, 2, 17-32.
Quennerstedt, M. (2019). Physical education and the art of teaching: Transformative learning and teaching in physical education and sports pedagogy. Sport, Education and Society, 24(6), 611-623.
Quennerstedt, M., McCuaig, L., & Mårdh, A. (2021). The fantasmatic logics of physical literacy. Sport, Education and Society, 26(8), 846-861.
Redelius, K., Quennerstedt, M., & Öhman, M. (2015). Communicating aims and learning goals in physical education: Part of a subject for learning? Sport, Education and Society, 20(5), 641-655.
Richardson, J. T. (1999). The concepts and methods of phenomenographic research. Review of Educational Research, 69(1), 53-82.
Roetert, E. P., & MacDonald, L. C. (2015). Unpacking the physical literacy concept for K-12 physical education: Whatshould we expect the learner to master? Journal of Sport and Health Science, 4(2), 108-112.
Rose, E., Le Heron, J., & Sofat, I. (2005). Student Understandings of Information Systems Design, Learning and Teaching: A Phenomenography Approach. Journal of Information Systems Education, 16(2), 183-195.
Säljö, R. (1979). Learning in the Learner’s Perspective 1. Some Commonsense Conceptions. Gothenburg: Institute of Education, University of Gothenburg.
Sallis, J. F., McKenzie, T. L., Beets, M. W., Beighle, A., Erwin, H., & Lee, S. (2012). Physical education's role in public health: Steps forward and backward over 20 years and HOPE for the future. Research Quarterly for Exercise & Sport, 83(2), 125-135.
Schommer, M. (1998). The influence of age and education on epistemological beliefs. British Journal of Educational Psychology, 68, 551-562.
Schumacker, R.E., & Lomax, R.G. (2004). A Beginner's Guide to Structural Equation Modeling: Fourth Edition (2nd ed.). Psychology Press.
Sinatra, G. M. (2001). Knowledge, beliefs, and learning. Educational Psychology Review, 13, 321-323.
Soltani, A., & Askarizadeh, G. (2021). How students’ conceptions of learning science are related to their motivational beliefs and self-regulation. Learning and Motivation, 73, 101707.
Sum, K. W. R., Wallhead, T., Ha, S. G. A., & Sit, H. P. G. (2018). Effects of physical education continuing professional development on teachers physical literacy and self-efficacy and students’ learning outcomes. International Journal of Educational Research, 88, 1-8.
Sum, K. W., Cheng, C. F., Wallhead, T., Kuo, C. C., Wang, F. J., & Choi, S. M. (2018). Perceived physical literacy instrument for adolescent: A further validation of PPLI. Journal of Exercise Science & Fitness, 16, 26-31.
Sum, K. W., Ha, S. C., Cheng, C. F., Chung, P. K., Yiu, T. C., Kuo, C. C., Yu, C. K., & Wang, F. J. (2016). Construction and Validation of a Perceived Physical Literacy Instrument for Physical Education Teachers. PLOS ONE, 11(5):e0155610.
Täks, M., Tynjälä, P., & Kukemelk, H. (2016). Engineering students’ conceptions of entrepreneurial learning as part of their education. European Journal of Engineering Education, 41(1), 53-69.
Tan, A. L., Liang, J. C., & Tsai, C. C. (2021). Relationship among high school students’ science academic hardiness, conceptions of learning science and science learning self-efficacy in Singapore. International Journal of Science and Mathematics Education, 19, 313-332.
Taylor, N., Wright, J., & O’Flynn, G. (2019). Embodied encounters with more-than-human nature in health and physical education. Sport, Education and Society, 24(9), 914-924.
Tinning, R. (2012). The idea of physical education: A memetic perspective. Physical Education & Sport Pedagogy, 17(2), 115-126.
Trigwell, K., & Ashwin, P. (2006). An exploratory study of situated conceptions of learning and learning environments. Higher Education, 51, 243-258.
Tsai, C. C. (1998). An analysis of scientific epistemological beliefs and learning orientations of Taiwanese eighth graders. Science Education, 82(4), 473-489.
Tsai, C. C. (2004). Conceptions of learning science among high school students in Taiwan: A phenomenographic analysis. International Journal of Science Education, 26 (14), 1733-1750.
Tsai, C. C. (2009). Conceptions of learning versus conceptions of web-based learning: The differences revealed by college students. Computers & Education, 53(4), 1092-1103.
Tsai, C. C., & Kuo, P. C. (2008). Cram school students’ conceptions of learning and learning science in Taiwan. International Journal of Science Education, 30 (3), 353-375.
Tsai, C. C., Ho, H. N. J., Liang, J. C., & Lin, H. M. (2011). Scientific epistemic beliefs, conceptions of learning science and self-efficacy of learning science among high school students. Learning and Instruction, 21(6), 757-769.
United Nations Educational, Scientific and Cultural Organization [UNESCO] (1998). Higher Education in the Twenty-First Century: Vision and Action. World Conference on Higher Education. Paris: Unesco.
United Nations Educational, Scientific and Cultural Organization [UNESCO] (2015). Charte international de l’éducation physique, de l’activité physique et du sport. Retrieved from https://unesdoc.unesco.org/ark:/48223/pf0000235409_freUpper Saddle River, NJ: Prentice Hall.
Vermunt, J. D., & Vermetten, Y. J. (2004). Patterns in student learning: Relationships between learning strategies, conceptions of learning, and learning orientations. Educational Psychology Review, 16(4), 359-383.
Vettori, G., Vezzani, C., Bigozzi, L., & Pinto, G. (2020). Cluster profiles of university students’ conceptions of learning according to gender, educational level, and academic disciplines. Learning and Motivation, 70, 101628.
Wang, H. Y., & Tsai, C. C. (2012). An Exploration of Elementary School Students' Conceptions of Learning: A Drawing Analysis. Asia-Pacific Education Researcher, 21(3), 610-617.
Ward, G., & Quennerstedt, M. (2016). Transactions in primary physical education in the UK: a smorgasbord of looks-like-sport. Physical Education and Sport Pedagogy, 21(2), 137-152.
Whitehead, M. E. (2010). Physical literacy throughout the lifecourse. England, UK: Routledge.
Wiggins, D. K. (2021). Looking back at kinesiology’s future: The need for both focused frogs and visionary birds. Kinesiology Review, 10(4), 372-382.
World Health Organization. Global Action Plan on Physical Activity 2018-2030: More Active People for a Healthier World. Available online: https://www.who.int/ncds/prevention/physical-activity/global-actionplan-2018-2030/en/ (accessed on 2 January 2021).
Wu, M. L. (2009). Structural equation model-the operation and application of AMOS. Chongqing: Chongqing People's Publishing House.
Xiao, Y., & Carless, D. R. (2013). Illustrating students’ perceptions of English language assessment: Voices from China. RELC Journal, 44(3), 319-340.
Xu, Z., Ritzhaupt, A. D., Umapathy, K., Ning, Y., & Tsai, C. C. (2021). Exploring college students’ conceptions of learning computer science: a draw-a-picture technique study. Computer Science Education, 31(1), 60-82.
Yang, Y. F., & Tsai, C. C. (2010). Conceptions of and approaches to learning through online peer assessment. Learning and Instruction, 20(1), 72-83.
Yeh, H. Y., Tsai, Y. H., Tsai, C. C., & Chang, H. Y. (2019). Investigating students’ conceptions of technology-assisted science learning: a drawing analysis. Journal of Science Education and Technology, 28(4), 329-340.
Young, L., O’Connor , J., & Alfrey, L. (2020). Physical literacy: a concept analysis. Sport, Education and Society, 25:8, 946-959.
Zhao, X. (2022). Unravelling Conceptions of Learning. Online Submission, 3(2), 87-98.