Loading...
|
Please use this identifier to cite or link to this item:
https://nccur.lib.nccu.edu.tw/handle/140.119/150666
|
| Title: | 數位學習平台輔助數學課程教學對低成就學生之學習態度、學習動機及學習成效之影響
The Influence of Digital Learning Platforms on the Learning Attitudes, Motivation, and Learning Outcomes of Low-Achieving Students in Mathematics Courses |
| Authors: | 歐志祥
OU, Chih-Hsiang |
| Contributors: | 李沛錞
Lee, Pei-Chun Lee
歐志祥
OU, Chih-Hsiang |
| Keywords: | 數位學習平台輔助數學課程教學
低成就學生
學習動機
學習成效
學習態度
digital learning platform-assisted mathematics curriculum
low-achieving students
learning motivation
learning outcomes
learning attitudes |
| Date: | 2024 |
| Issue Date: | 2024-04-01 14:26:06 (UTC+8) |
| Abstract: | 本研究之目的為探討數位學習平台輔助數學課程教學,對於國小數學低成就學生之影響,包含學習成效、學習動機與學習態度。在數位學習平台輔助數學課程教學中,本研究結合教育部因材網與均一教育平台,以九位國小五年級數學低成就學生為研究對象,實施為期八週之教學,以教育部科技化評量篩選測驗與成長測驗作為前後測,並於教學實施前、後進行數學學習動機與學習態度問卷之前、後測。
本研究採用行動研究,結合問卷分析法與深度訪談法進行質性資料的蒐集與分析,以探討研究對象在經歷數位學習平台輔助數學課程教學之後,其學習成效、學習動機與學習態度之改變,了解學生真實的感受與認知,進而提出研究結果。
研究發現,數位學習平台輔助數學課程教學能提升國小數學低成就學生之學習成效、學習動機與學習態度,而學生對於數位學習平台輔助數學課程教學的感受與想法多為正向。本研究旨於填補相關研究缺口,並根據本研究結論、研究實施經歷及發現,提出對數學教學工作者實施數位學習平台輔助數學課程教學與未來進行相關研究者之建議,期望為教育實踐提供有益之啟示。
The purpose of this study is to investigate the impact of a digital learning platform-assisted mathematics curriculum on elementary school students with low mathematical achievement. This includes examining learning outcomes, motivation, and attitudes toward learning. The study integrates the Ministry of Education's personalized learning platform and the Uniform Education Platform, focusing on nine fifth-grade students with low mathematical achievement. The research involves an eight-week instructional period, utilizing technology-based assessments for pre- and post-tests, and administering surveys on mathematical learning motivation and attitudes before and after the instructional intervention.
This study employs an action research approach, combining survey analysis and in-depth interviews to collect and analyze qualitative data. The aim is to explore changes in learning outcomes, motivation, and attitudes among the participants after experiencing the digital learning platform-assisted mathematics curriculum. The research seeks to understand the students' real experiences and perceptions, providing valuable insights into the outcomes of the study.
Findings indicate that the digital learning platform-assisted mathematics curriculum enhances learning outcomes, motivation, and attitudes among elementary school students with low mathematical achievement. Students generally express positive sentiments and thoughts regarding the instructional intervention. This study aims to address gaps in existing research, and based on its conclusions, implementation experiences, and discoveries, it offers recommendations for mathematics educators implementing digital learning platform-assisted mathematics curriculum and future researchers in this field, with the hope of providing valuable insights for educational practices. |
| Reference: | 參考文獻
一、中文文獻
華小芳. (2022). 運用均一教育平台於國中資源班學生數學學習之研究. National Central University,
丁愷慧. (2019). PaGamO 融入編序教學法對於偏鄉小學三年級生數學學習成效影響之研究.
今木智隆. (2022 ). 「很會教數學」的老師造就了討厭數學的孩子. Retrieved September 24, 2023, 取自 https://www.cw.com.tw/article/5120566
文崇一(2001)。調查訪問法。楊國樞、文崇一、吳聰賢、李亦園(主編),社會及行為科學研究法下冊。臺北:東華
王惠君(2006)。網路問卷調查服務系統之研究〔碩士論文,中國文化大學〕。臺灣博碩士論文知識加值系統。https://hdl.handle.net/11296/mra7rk
因材網中影片觀看行為, 檢核測驗及學習成效探討. 2021. PhD Thesis.
行政院國家科學委員會(2002)。數位學習國家型科技計畫。取自:http://wiki. teldap.tw/index.php?title=%E6%95%B8%E4%BD%8D%E5%AD%B8%E7%BF%92 %E5%9C%8B%E5%AE%B6%E5%9E%8B%E7%A7%91%E6%8A%80%E8%A8% 88%E7%95%AB#.E7.9B.AE.E6.A8.99
余民寧, & 李昭鋆. (2018). 補救教學中個別化教學對學生學習成效之 影響分析. Journal of Research in Education Sciences, 63(1).
均一教育平台. (2012.). 均一教育平台. Retrieved October 24, 2023, from https://www.junyiacademy.org/
李宜玫. (2012). 數學低成就學習動機之類型與區別分析: 中小學弱勢學生與一般學生之比較. 教育科學研究期刊, 57(4), 39-71.
李鈁婷. (2023). 運用學習載具融入四年級數學課程提升學生學習成效之行動研究
周新富( 2012)。 教育研究法 (頁 310-337)。臺北市:五南。
周聖新. (2022). 因材網與 WSQ 學習單對國小原住民學生混齡學習數學分數成效之研究
林玉雲. (2017). 數學補救教學的理想與實施困境. 臺灣教育評論月刊, 6(5), 96-100.
侯聖倫. (2020). 線上教育平台於補救教學之效益-以均一教育平台為例.
凃宛妤(2023)。資訊科技融入英語課程教學對國小英語低成就學生之學習動機與學習成效之影響。﹝碩士論文。國立政治大學﹞臺灣博碩士論文知識加值系統。 https://hdl.handle.net/11296/jde4cf。
柯淨眸. (2020). 運用 PaGamO 於國小五年級數學補救教學之研究.
徐揚智, & 孟瑛如. (2021). 應用 PaGamO 數位遊戲式平台於國小六年級數學低成就學生學習成效之研究. 特教論壇, (30), 14-37.
徐揚智. (2020). 應用數位遊戲式學習於國小六年級數學低成就學生數學課後複習學習成效之研究—以 PaGamO 數位遊戲式平台為例.
國家教育研究院. (2014). 十二年國教課程綱要. Retrieved September 24, 2023, 取自 https://www.naer.edu.tw/PageSyllabus?fid=52
張春興 (2007)。學習動機與學習策略。臺北市:心理出版社。
張裕程. (2016). 正視補救教學的 [補救] 與策略. 臺灣教育評論月刊, 5(11), 54-57.
張靖敏, 張道宜, 劉雅萍, & 陳美瑩. (2022). 因材網: 教育部人工智慧知識結構分析診斷及適性學習平台之析論. 台灣教育研究期刊, 3(1), 313-331.
教育部 (2011)。國民小學及國民中學補救教學方案科技化評量。2012 年 3 月 6 日, 取自:http://asaptbt.nutn.edu.tw/tbtweb/index.php。
教育部(2000):《國民中小學九年一貫課程暫行綱要》。https://cirn.moe.edu.tw/WebContent/index. aspx?sid=9&mid=163 [Ministry of Education. (2000). The nine-year consistent syllabus temporary version. https://cirn.moe.edu.tw/WebContent/index.aspx?sid=9&mid=163]
教育部(2009)。攜手計畫課後扶助方案。教育部。
教育部(2018):《十二年國民基本教育課程綱要》。https://12basic.edu.tw/12about-3-1.php [Ministry of Education. (2018). 12-year education curriculum guide. https://12basic.edu.tw/12about-3-1.php]
教育部. (2021). 班班有網路 生生用平板-全面推動中小學數位學習精進方案. Retrieved September 24, 2023, 取自 https://www.edu.tw/News_Content.aspx?n=9E7AC85F1954DDA8&s=9F7133D453CC16F2
教育部. (2022). 中小學數位教學指引1.0版. Retrieved September 24, 2023, 取自 https://ws.moe.edu.tw/001/Upload/23/relfile/8006/86277/2d47608d-1cb3-4477-9069-8e6e797d4f65.pdf
教育部因材網. (2017). 教育部因材網. Retrieved October 24, 2023, from https://adl.edu.tw/HomePage/home/index.php
教育部國民及學前教育署. (2023). 教育部國民及學前教育署補助辦理矯正教育作業要點
郭為藩. (2002). 特殊教育心理與教育. 台北市: 心理.
陳卓怡. (2019). 數學科補救教學之經驗分享-以高雄市某偏鄉國中為例. 臺 灣 教 育 評 論 月 刊, 59.
陳怡均. (2021). 運用 PaGamO 遊戲平台與合作學習融入 國中國文科教學之研究
陳亭潔(2016)。混成式教學對國中生數學學習動機、學習態度與學習成就之影響。﹝碩士論文。國立臺灣海洋大學﹞臺灣博碩士論文知識加值系統。 https://hdl.handle.net/11296/4pj62r。
陳淑娟、林美珍、陳淑惠 (2018)。國小學童數學自我效能、數學焦慮與數學成就之相關研究。教育科學期刊, 17(2), 1-24
黃巾芸. (2019). 均一教育平台融入國中數學教學對學習成效與學習態度影響之研究
新北市政府教育資料平台. (n.d.). 新北市政府開放資料平台. Retrieved October 24, 2023, from https://bdp.ntpc.edu.tw/NTPC#/county-dashboard。
楊時芬, & 歐陽誾. (2020). PaGamO 線上遊戲平臺對不同成就之七年級學生數學學習態度與學習成就之影響. 教育傳播與科技研究, (124), 17-36.
萬文隆(2004)。深度訪談在質性研究中的應用。生活科技教育月刊, 37(4), 17-23。
廖純英. (2022). 後疫情時代數位轉型在跨領域教學領導的實踐與反思. 臺灣教育評論月刊, 11(4), 105-111.
遠光, & 陳勇欣. (2021). 我國近30年科技融入數學教學對中小學生學習成效影響之後設分析. Jiaoyu xinlixuebao, 52(4). doi:10.6251/BEP.202106_52(4).0003
劉俞宏. (2018). 均一教育平台融入差異化教學對提升國中生數學學習成效之行動研究.
劉信宏, 袁雅姿, 周保男, & 石儒居. (2022). PaGamO 遊戲平台融入國小數學課程之實驗研究. 工程, 技術與 STEM 教育研討會, 22-31.
數位學習平台輔助教學對於國小六年級學生數學學習成效之探討-以均一平台為例. 2017. PhD Thesis.
蔡清田( 2000)。 教育行動研究 。臺 北市:五南。
聯合國. (2015). 永續發展目標進度報告. Retrieved September 24, 2023, 取自 https://sdgs.un.org/zh/goals
薛雅純. (2019). 以均一教育平台實施差異化教學之實務見解. 臺灣教育評論月刊.
二、英文文獻
AbdulRazak, N. S., & Ali, M. A. (2019). Challenges of implementation e-learning platforms in Iraqi universities. Engineering and Technology Journal, 37(4), 400-406.
Ally, M. (2004). Foundations of educational theory for online learning. Theory and practice of online learning, 2, 15-44.
Alshammari, S. H., Bilal Ali, M., & Rosli, M. S. (2018). LMS, CMS and LCMS: The confusion among them. Science International, 30(3), 455-459.
Al-Zoubi, S. M., & Younes, M. A. B. (2015). Low academic achievement: causes and results. Theory and Practice in Language Studies, 5(11), 2262.
Al-Zoubi, S. M., & Younes, M. A. B. (2015). Low academic achievement: causes and results. Theory and Practice in Language Studies, 5(11), 2262.
Araya, R., & Diaz, K. (2020). Implementing government elementary math exercises online: positive effects found in RCT under social turmoil in Chile. Education Sciences, 10(9), 244.
Ashcraft, M. H., & Krause, J. A. (2007). Working memory, math performance, and math anxiety. Psychonomic bulletin & review, 14, 243-248.
Baker, R. S. J. D. (2010). Data mining for education. International encyclopedia of education. Google Scholar Google Scholar Cross Ref Cross Ref, 112-118.
Balt, M., Börnert-Ringleb, M., & Orbach, L. (2022, February). Reducing math anxiety in school children: A systematic review of intervention research. In Frontiers in Education (Vol. 7, p. 798516). Frontiers.
Bernacki, M. L., & Walkington, C. (2018). The role of situational interest in personalized learning. Journal of Educational Psychology, 110(6), 864.
Borba, M. C., Askar, P., Engelbrecht, J., Gadanidis, G., Llinares, S., & Aguilar, M. S. (2016). Blended learning, e-learning and mobile learning in mathematics education. ZDM, 48, 589-610.
Borup, J., West, R. E., & Graham, C. R. (2012). Improving online social presence through asynchronous video. The Internet and Higher Education, 15(3), 195-203.
Chand, S., Chaudhary, K., Prasad, A., & Chand, V. (2021). Perceived causes of students’ poor performance in mathematics: A case study at Ba and Tavua secondary schools. Frontiers in Applied Mathematics and Statistics, 7, 614408.
Chand, S., Chaudhary, K., Prasad, A., & Chand, V. (2021). Perceived causes of students’ poor performance in mathematics: A case study at Ba and Tavua secondary schools. Frontiers in Applied Mathematics and Statistics, 7, 614408.
Chandler, J. L. R. (2017). Personalized learning in the digital age: The narratives of school leaders implementing blended learning (Publication No. 10282966)
Chang, I. Y., & Chang, W. Y. (2012). The effect of student learning motivation on learning satisfaction. International Journal of Organizational Innovation, 4(3).
Chen, C.-M. (2016). Effects of an online platform on students’ learning performance and motivation in a social context. Interactive Learning Environments, 24(4), 742-757
Chen, P. P. (2003). Exploring the accuracy and predictability of the self-efficacy beliefs of seventh-grade mathematics students. Learning and individual differences, 14(1), 77-90.
Cheok, M. L., & Wong, S. L. (2015). Predictors of e-learning satisfaction in teaching and learning for school teachers: A literature review. International Journal of Instruction, 8(1), 75-90.
Cheung, A. C., & Slavin, R. E. (2013). The effectiveness of educational technology applications for enhancing mathematics achievement in K-12 classrooms: A meta-analysis. Educational research review, 9, 88-113.
D’Mello, S. K. (2021). Improving student engagement in and with digital learning technologies. Pushing the Frontiers with Artificial Intelligence, Blockchain and Robots, 79-104.
Department for Education. (2019). Pupil premium: funding and accountability for schools
Duncan, T. G., & McKeachie, W. J. (2005). The making of the motivated strategies for learning questionnaire. Educational psychologist, 40(2), 117-128.
Gaspard, H., Dicke, A. L., Flunger, B., Schreier, B., Häfner, I., Trautwein, U., & Nagengast, B. (2015). More value through greater differentiation: Gender differences in value beliefs about math. Journal of educational psychology, 107(3), 663.
Grant, P., & Basye, D. (2014). Personalized learning: A guide for engaging students with technology. International Society for Technology in Education.
Guay, F., Ratelle, C. F., & Chanal, J. (2008). Optimal learning in optimal contexts: The role of self-determination in education. Canadian psychology/Psychologie canadienne, 49(3), 233.
Gutiérrez-de-Rozas, B., López-Martín, E., & Carpintero Molina, E. (2022, August). Defining the profile of students with low academic achievement: A cross-country analysis through PISA 2018 data. In Frontiers in Education (Vol. 7, p. 910039). Frontiers.
Hannula, M. S. (2012). Exploring new dimensions of mathematics-related affect: Embodied and social theories. Research in Mathematics Education, 14(2), 137-161.
Hung, C. M., Huang, I., & Hwang, G. J. (2014). Effects of digital game-based learning on students’ self-efficacy, motivation, anxiety, and achievements in learning mathematics. Journal of Computers in Education, 1, 151-166.
Kaur, H., Singh, A., & Kaur, N. (2018). The impact of teacher expectations, classroom climate and peer influence on student mathematics achievement and interest: A structural equation modeling analysis. European Journal of Psychology of Education, 33(4), 729-748
Kaya, Y., & Leite, W. L. (2017). Assessing change in latent skills across time with longitudinal cognitive diagnosis modeling: An evaluation of model performance. Educational and psychological measurement, 77(3), 369-388.
Kehrwald, B. (2008). Understanding social presence in text‐based online learning environments. Distance Education, 29(1), 89-106.
Koedinger, K. R., Booth, J. L., Klahr, D., Davenport, J. L., & Stamper, J. C. (2019). Learning fractions with an intelligent tutoring system: The role of student prior knowledge and self-regulated learning skills. Journal of Educational Psychology, 111(4), 614-628.
Kuo, Y. C., Walker, A. E., Schroder, K. E., & Belland, B. R. (2014). Interaction, Internet self-efficacy, and self-regulated learning as predictors of student satisfaction in online education courses. The internet and higher education, 20, 35-50.
Lee, Y., & Choi, J. (2011). A review of online course dropout research: Implications for practice and future research. Educational Technology Research and Development, 59, 593-618.
Li, Q., & Ma, X. (2010). A meta-analysis of the effects of computer technology on school students’ mathematics learning. Educational Psychology Review, 22, 215-243.
Li, Y., Lerner, J. V., & Lerner, R. M. (2010). Personal and ecological assets and academic competence in early adolescence: The mediating role of school engagement. Journal of youth and adolescence, 39, 801-815.
Liu, Y., Li, H., & Zhang, J. (2019). Effects of personalized learning on student engagement: Evidence from a randomized control trial. Computers & Education, 145, Article 1037261.
Ma, X., & Xu, J. (2004). The causal ordering of mathematics anxiety and mathematics achievement: a longitudinal panel analysis. Journal of adolescence, 27(2), 165-179.
Ma, X., & Xu, J. (2004). The causal ordering of mathematics anxiety and mathematics achievement: a longitudinal panel analysis. Journal of adolescence, 27(2), 165-179.
Meier, E. B. (2021). Designing and using digital platforms for 21st century learning. Educational Technology Research and Development, 69(1), 217-220.
Mohan, R. (2023). Measurement, evaluation and assessment in education. PHI Learning Pvt. Ltd..
Montazer, G. A., & Al-Rikabi, Y. K. (2021, May). Identifying the obstacles of implementing e-learning in Iraqi universities. In 2021 7th International Conference on Web Research (ICWR) (pp. 24-34). IEEE.
Pane, J. F., Steiner, E. D., Baird, M. D., & Hamilton, L. S. (2015). Continued Progress: Promising Evidence on Personalized Learning. Rand Corporation.
Piccoli, G., Ahmad, R., & Ives, B. (2001). Web-based virtual learning environments: A research framework and a preliminary assessment of effectiveness in basic IT skills training. MIS quarterly, 401-426.
Pintrich, P. R. (1991). A manual for the use of the Motivated Strategies for Learning Questionnaire (MSLQ)
Renninger, K. A., & Hidi, S. (2015). The power of interest for motivation and engagement. Routledge.
Roche, A., Gervasoni, A., & Kalogeropoulos, P. (2021). Factors that promote interest and engagement in learning mathematics for low-achieving primary students across three learning settings. Mathematics Education Research Journal, 1-32.
Ryan, R. M., & Deci, E. L. (2000). Self-determination theory and the facilitation of intrinsic motivation, social development, and well-being. American psychologist, 55(1), 68.
Schunk, D. H., & Meece, J. L. (2006). Self-efficacy development in adolescence. Self-efficacy beliefs of adolescents, 5(1), 71-96.
Schunk, D. H., Pintrich, P. R., & Meece, J. L. (2014). Motivation in education: Theory, research, and applications. (No Title).
Siemens, G., & Long, P. (2011). Penetrating the fog: Analytics in learning and education. EDUCAUSE review, 46(5), 30.
Singh, V., & Thurman, A. (2019). How many ways can we define online learning? A systematic literature review of definitions of online learning (1988-2018). American Journal of Distance Education, 33(4), 289-306.
Sokolowski, A., Li, Y., & Willson, V. (2015). The effects of using exploratory computerized environments in grades 1 to 8 mathematics: A meta-analysis of research. International Journal of STEM Education, 2, 1-17.
Sokolowski, A., Li, Y., & Willson, V. (2015). The effects of using exploratory computerized environments in grades 1 to 8 mathematics: A meta-analysis of research. International Journal of STEM Education, 2, 1-17.
U.S. Department of Education. (2015). Improving basic programs operated by local educational agencies (Title I, Part A).
Wu, S. C., & Tsuei, M. (2011, September). The effects of digital game-based learning on elementary students' science learning. In 2011 International Conference on Electrical and Control Engineering (pp. 6897-6901). IEEE.
Yeh, C. Y., Cheng, H. N., Chen, Z. H., Liao, C. C., & Chan, T. W. (2019). Enhancing achievement and interest in mathematics learning through Math-Island. Research and Practice in Technology Enhanced Learning, 14(1), 1-19.
Zawacki-Richter, O., Marín, V. I., Bond, M., & Gouverneur, F. (2019). Systematic review of research on artificial intelligence applications in higher education–where are the educators?. International Journal of Educational Technology in Higher Education, 16(1), 1-27.
Zimmerman, B. J. (2000). Attaining self-regulation: A social cognitive perspective. In Handbook of self-regulation (pp. 13-39). Academic press. |
| Description: | 碩士
國立政治大學
圖書資訊學數位碩士在職專班
108913006 |
| Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0108913006 |
| Data Type: | thesis |
| Appears in Collections: | [圖書資訊學數位碩士在職專班] 學位論文
|
Files in This Item:
| File |
Size | Format | |
|---|
| 300601.pdf | 1748Kb | Adobe PDF | 0 | View/Open |
|
All items in 政大典藏 are protected by copyright, with all rights reserved.
|
