研究生: |
賴恩瑩 En-ying Lai |
---|---|
論文名稱: |
模組教具對不同學習風格學生的工程概念學習成效影響之研究 A Study of the Effects of Modular Teaching Aids on Different Learners’ Engineering Concept Learning |
指導教授: |
張玉山
Chang, Yu-Shan |
學位類別: |
碩士 Master |
系所名稱: |
科技應用與人力資源發展學系 Department of Technology Application and Human Resource Development |
論文出版年: | 2013 |
畢業學年度: | 101 |
語文別: | 中文 |
論文頁數: | 126 |
中文關鍵詞: | 教具 、模組教具 、學習風格 、工程概念 |
英文關鍵詞: | teaching aids, modular teaching aids, learning styles, engineering concept |
論文種類: | 學術論文 |
相關次數: | 點閱:133 下載:42 |
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本文旨在探討模組教具應用對不同學習風格學生的工程概念學習成效之影響,以提供學校日後推動工程教育之參考。本研究對象為臺北市立某高中二年級10個班級的學生,共計417人,分為實驗組209人,控制組208人。
主要研究方法為準實驗研究法,並採用不等組前後測實驗設計,以Kolb學習風格量表、模組教具教學單元-機械獸、學習單及工程概念學習成效評量表為研究工具。在資料分析方面,利用SPSS 20.0 for Windows進行平均數、標準差、獨立樣本單因子共變數分析及獨立樣本雙因子共變數分析。
研究結果發現,模組教具應用對學生的工程概念學習成效優於傳統教學,模組教具應用對學生的工程限制概念及工程最佳化概念學習成效沒有顯著影響,模組教具應用對將近四成學生的工程預測分析學習成效優於傳統教學。
不同的學習風格對學生的工程概念及工程限制概念有顯著影響,皆以擴散型學生學習效果為最好,但是對學生的工程最佳化概念及工程預測分析概念學習成效,並沒有顯著影響。學習風格與模組教具應用對高中生工程概念學習成效有交互作用,以調適型的學生在模組教具應用教學中的工程概念學習效果最好。
This study was to examine how modular teaching aids and learning styles influenced different learners’ engineering concepts. This also served as a reference for schools to promote engineering education. The research subjects of this study were ten classes of eleventh graders from a Taipei Municipal Senior High School. They totaled 417 people with 209 people as an experimental group and 208 people as a control group.
The major research method was characterized by a quasi-experimental research design and a pre-post-test design. The research tools and instruments included Kolb’s learning style inventory and the modular teaching aids-oriented instructional units—mechanical beasts, worksheets, and Engineering Concept Test. Concerning the analysis of the research data, this study utilized SPSS Statistics 20.0 for Windows not only to calculate the average and standard deviation but also to perform one-way ANCOVA and two-way ANCOVA.
The major research findings were: (1) the modular teaching aids assisted the students significantly better in learning engineering concepts than the traditional teaching modes; (2) the application of the modular teaching aids exerted no significant impact on the students’ learning of both constraint concepts and optimization concepts in engineering; (3) the modular teaching aids were more conducive to approximately forty percent of the students’ learning of predictive analysis concepts in engineering than the traditional teaching modes.
Various learning styles exercised obvious influence on the students’ learning of engineering concepts and constraints concept in engineering, particularly the divergers’. Nevertheless, there existed no significant difference in all the students’ learning of optimization concepts and predictive analysis concepts in engineering. Additionally, there were interactive effects of the modular teaching aids and learning styles on engineering concept learning of participant students. The students categorized as accommodators performed the best when provided with the modular teaching aids in engineering concept learning.
一、中文部分
田耐青 (譯) (2002)。H. F. Silver, R.W. Strong, & M. J. Perini 著。統整多元智慧與學習風格。台北市:遠流。
何翠華(2000)。翰林「九年一貫課程」各領域研究與發展:「國語科」教學媒體-教具的應用。翰林文教雜誌,10,12-15。
李隆盛(1995)。國中工藝/生活科技教學策略之研究。台北市:行政院國家科學委員會。
李隆盛(1998)。高中實施「工程科技」的可能性。中學工藝教育,31(5),2-7。
沈怡伶(2008)。國小中、高年級學童學習風格與問題解決能力之研究。國立嘉義大學科學教育研究所碩士論文,未出版,嘉義市。
呂劍英(2009)。國三學生的學習風格與自然科學習興趣之研究。國立臺灣師範大學生命科學系在職進修碩士班碩士論文,未出版,台北市。
林清山(2002)。心理與教育統計學。台北市:東華。
林敏宜、楊素玲(2000)。實用教具的設計與製作-各類型教具。台北市:啟英文化。
周宴安、劉威德(2004)。國小英語教師對教具之看法及較常使用教具之類型—以彰化縣市四所國小為例。中州學報,20,243-263。
施賀建(2003)。學習風格與方式對學習成效之影響 - 以互動式與否為基礎。中原大學資訊管理研究所碩士論文,未出版,桃園縣。
高瑩真(2008)。互動式電子白板應用於國小高年級健康課程教學對不同學習風格學習者學習情形影響之研究。國立新竹教育大學教育研究所碩士論文,未出版,新竹市。
陳文典(無日期)。教學模組。2012年6月5日,取自http://phy.ntnu.edu.tw/nstsc/pdf/book2/03.pdf
陳沛涵(2007)。屏東縣國小教師使用國語科教具教學需求、意願與滿意度之研究。國立屏東教育大學教育科技研究所碩士論文,未出版,屏東縣。
陳銘村(2005)。成人網路學習者學習風格、自我調控與學習成效關係之研究。國立高雄師範大學成人教育研究所碩士論文,未出版,高雄市。
陳嘉斌(2009)。網路同步學習對不同學習風格學生科技概念學習之影響。國立臺灣師範大學科技應用與人力資源發展學系碩士論文,未出版,台北市。
教育部(2008)。自然與生活科技綱要。台北市:作者。
郭生玉(2001)。心理與教育研究法。台北市:精華。
張玉山(1992)。科技教育的教學途徑與應用之探討。中學工藝教育,25(12),2-9。
張春興(2002)。教育心理學-三化取向的理論與實踐。台北市:東華。
國立教育資料館(無日期)。經驗金字塔。2012年6月21日,取自http://3d.nioerar.edu.tw/2d/av/lesson/lesson_0301.asp
黃馨慧(2007)。利用不同媒體教學對不同學習風格的國一學生學習成就。國立彰化師範大學生物研究所碩士論文,未出版,彰化市。
曾常亮(2010)。國中生活科技課程實施電控車教學之成效研究。國立臺灣師範大學工業教育學系在職進修碩士班碩士論文,未出版,台北市。
蔡淑薇(2003)。高中職學生學習風格、自我調整學習與學業成就之關係。彰化師範大學輔導與諮商系碩士論文,未出版,彰化縣。
羅皓恩(2008)。教評中心工程教育評估研究 建議強化理論實現能力。師大新聞。2012年8月6日,取自 http://pr.ntnu.edu.tw/news/index.php?mode=data&id=1910&keywords=3/10公關室羅皓恩報導
二、外文部分
Arora, J. S. (1989). Introduction to optimum design. New York: McGraw-Hill.
Ausubel, D. P., & Robinson, F. G. (1996). School learning: An introduction to educational psychology. New York: Holt, Rinehart and Winston.
Babadogan, C., & Ünal, F. (2011). Examples of instructional design for social studies according to meaningful learning and information processing theories. Procedia - Social and Behavioral Sciences, 15, 2155-2158.
Bayrak, B. K. (2012). A study on learning styles of secondary school student's according to gender and class level. Procedia - Social and Behavioral Sciences, 46, 843-847.
Brophy, S., Klein, S., Portmore, M., & Rogers, C. (2008). Advancing engineering education in P-12 classrooms. Journal of Engineering Education, 97(3), 369-387.
Bryman, A., & Cramer, D. (1997). Quantitative data analysis with SPSS for Windows. London: Routledge.
Campigotto, R., McEwen, R., & Demmans Epp, C. (2013). Especially social: Exploring the use of an iOS application in special needs classrooms. Computers & Education, 60(1), 74-86.
Can, Ş. (2009). The effects of science student teachers’ academic achievements, their grade levels, gender and type of education they are exposed to on their 4mat learning styles (case of Muğla University, Turkey). Procedia - Social and Behavioral Sciences, 1(1), 1853-1857.
Carmines, E. G., & Zeller, R. A. (1979). Reliability and validity assessment. Beverly Hills, CA: Sage.
Caulley, L., Wadey, V., & Freeman, R. (2012). Learning styles of first-year orthopedic surgical residents at 1 accredited institution. Journal of Surgical Education, 69(2), 196-200.
Chatterjee, B., Dey, D., & Chakravorti, S. (2011). A modular approach for teaching partial discharge phenomenon through experiment. Education, IEEE Transactions on, 54(3), 410-415.
Chu, H. E., & Treagust, D. F. (2006, July). Naïve students’ conceptual development in introductory physics. Paper presented at the 37th Annual ASERA Conference, Canberra, Australia.
Coller, B. D., & Scott, M. J. (2009). Effectiveness of using a video game to teach a course in mechanical engineering. Computers & Education, 53(3), 900-912.
Cross, N. (2002). Creative cognition in design: Processes of exceptional designers. In T. Hewett & T. Kavanagh (Eds.), Creativity and cognition (pp. 14-19). New York: ACM Press.
Cross, N. (2004). Expertise in design: An overview. Design Studies, 25(5), 427-441.
Dale, E. (1969). Audiovisual methods in teaching (3rd ed.). New York: The Dryden Press.
D'Amore, A., James, S., & Mitchell, E. K. L. (2012). Learning styles of first-year undergraduate nursing and midwifery students: A cross-sectional survey utilising the Kolb Learning Style Inventory. Nurse Education Today, 32(5), 506-515.
Deal, W. F. I. (1994). Spotlight on careers. The Technology Teacher, 54(2), 13-24.
Devichi, C., & Munier, V. (2013). About the concept of angle in elementary school: Misconceptions and teaching sequences. The Journal of Mathematical Behavior, 32(1), 1-19.
Dinakar, C., Adams, C., Brımer, A., & Sılva, M. D. (2005).Learning preferences of car givers of asthmatic children. J Asthma, 42, 683–687.
Dikmenli, M., & Cardak, O. (2010). A study on biology student teachers’ conceptions of learning. Procedia - Social and Behavioral Sciences, 2(2), 933-937.
Direito, I., Pereira, A., & Duarte, A. M. d. O. (2012). Engineering undergraduates’ perceptions of soft skills: Relations with self-efficacy and learning styles. Procedia - Social and Behavioral Sciences, 55, 843-851.
Douglas, J., Iverson, E., & Kalyandurg, C. (2004). Engineering in the k-12 classroom: An analysis of current practices & guidelines for the future. Washington, DC: ASEE Engineering K-12 Center.
Duncan, D., Diefe-Dux, H., & Gentry, M. (2011). Professional development through engineering academies: An examination of elementary teachers' recognition and understanding of engineering. Journal of Engineering Education, 100(3), 520-539.
Dunsmore, K., Turns, J., & Yellin, J. (2011). Looking toward the real world : Student conceptions of engineering. Journal of Engineering Education, 100(2), 329-348.
Dunn, R., Beaudry, J. S., & Klavas, A. (1989). Survey of research on learning styles. Educational Leadership, 46(6), 50-58.
Eekels, J. (1995). Values, objectivity and subjectivity in science and engineering. Journal of Engineering Design, 6(3), 173.
Ertas, A., & Jones, J. C. (1993). The engineering design process (2nd ed.). New York: John Wiley & Sons.
Garger, S., & Guild, P. (1984). Learning styles: The crucial differences. Curriculum Review, 23(1), 9-12.
Harris, T. A., & Jacobs, H. R. (1995). On effective methods to teach mechanical design. Journal of Engineering Education, 84(3), 343-349.
Hayes, J. R. (1989). The complete problem solver (2nd ed.). Hillsdale, NJ: Lawrence Erlbaum.
Ho, C.H. (2001). Some phenomena of problem decomposition strategy for design thinking: Differences between novices and experts. Design Studies, 22(1), 27-45.
Honey, P., & Mumford, A. (1986). The manual of learning styles. Maidenhead, England: Peter Honey.
Hong, J., Nguyen, T. V., & Prose, N. S. (2013). Compassionate care: Enhancing physician–patient communication and education in dermatology: Part II: Patient education. Journal of the American Academy of Dermatology, 68(3), 364.e1-364.e10.
Huang, Y., Chou, Y. C., Yen, H. W., & Bai, H. C. (2012). Developing an Innovative Educational Program for Energy Saving and Carbon Reduction: An Elementary School Example. Procedia - Social and Behavioral Sciences, 51, 840-848.
Ictenbas, B. D., & Eryilmaz, H. (2011). Determining learning styles of engineering students to improve the design of a service course. Procedia - Social and Behavioral Sciences, 28, 342-346.
International Technology Education Association (2000). Standards for technological literacy: Content for the study of technology. Reston, VA: Author.
Jamian, A. R., & Baharom, R. (2012). The application of teaching aids and school supportive factors in learning reading skill among the remedial students in under enrolment schools. Procedia - Social and Behavioral Sciences, 35, 187-194.
Jin, Y., & Chusilp, P. (2006). Study of mental iteration in different design situations. Design Studies, 27(1), 25-55.
Joy, S., & Kolb, D. A. (2009). Are there cultural differences in learning style? International Journal of Intercultural Relations, 33(1), 69-85.
Kaiser, H. F. (1960). The application of electronic computers to factor analysis. Educational and Psychological Measurement, 20, 141-151.
Keefe, J. W. (1988). Profiling and utilizing learning styles. Reston, VA: NA SSP.
Kelley, T. L. (1939). The selection of upper and lower groups for the validation of test items. Journal of Education Psychology, 30, 17-24.
Kolb, D. A. (1985). Learning style inventory: Self-scoring inventory and interpretation booklet. Boston, MA: Mcber and Company.
Kolb, D. A., & Wolfe, D. M. (1981). Professional education and career development: A cross sectional study of adaptive competencies in experimental learning. Retrieved from ERIC database. (ED209493)
Langlois, J., & Thach, S. (2001).Teaching and learning styles in the clinical setting. Fam Med, 33, 344–346.
Lewis, T. (1999). Research in technology education - some areas of need. Journal of Technology Education, 10(2), 41-56.
Lewis, T. (2005). Coming to terms with engineering design as content. Journal of Technology Education, 16(2), 37-54.
Manolis, C., Burns, D. J., Assudani, R., & Chinta, R. (2013). Assessing experiential learning styles: A methodological reconstruction and validation of the Kolb Learning Style Inventory. Learning and Individual Differences, 23, 44-52.
Marek, G. I. (2013). Impact of learning style assessment on self-reported skills of students in an associate degree nursing program. Teaching and Learning in Nursing, 8(2), 43-49.
Martinez-Jimenez, P., Salas-Morera, L., Pedros-Perez, G., Cubero-Atienza, A. J., & Varo-Martinez, M. (2010). Opee: An outreach project for engineering education. Education, IEEE Transactions on, 53(1), 96-104.
Metallidou, P., & Platsidou, M. (2008). Kolb's learning style inventory-1985: Validity issues and relations with metacognitive knowledge about problem-solving strategies. Learning and Individual Differences, 18(1), 114-119.
Merrill, C. (2001). Integrated technology, mathematics, and science education: A quasi-experiment. Journal of Industrial Teacher Education, 38(3), 45-61.
Merrill, C., Custer, R., Daugherty, J., Westrick, M., & Zeng, Y. (2008). Delivering core engineering concepts to secondary level students. Journal of Technology Education, 20(1), 48-64.
Metin, M., Yılmaz, G. K., Birişçi, S., & Coşkun, K. (2011). The investigating pre-service teachers’ learning styles with respect to the gender and grade level variables. Procedia - Social and Behavioral Sciences, 15, 2728-2732.
Middleton, H. (2005). Creative thinking, values and design and technology education. International Journal of Technology and Design Education, 15(1), 61-71.
Milanese, S., Gordon, S., & Pellatt, A. (2013). Profiling physiotherapy student preferred learning styles within a clinical education context. Physiotherapy, 99(2), 146-152.
Miller, P. (2001). Learning styles: The multimedia of the mind. Educ Resources Inform Center, 451, 140.
Mohammed, Z., Narayanasamy, S., Mutalib, H. A., Kaur, S., & Ariffin, S. R. (2011). Learning styles preferences among third year optometry students of Universiti Kebangsaan Malaysia. Procedia - Social and Behavioral Sciences, 18, 384-387.
Narlı, S., Özgen, K., & Alkan, H. (2011). In the context of multiple intelligences theory, intelligent data analysis of learning styles was based on rough set theory. Learning and Individual Differences, 21(5), 613-618.
National Science Foundation. (1995). NSF 95–65 restructuring engineering education: A focus on change. Retrieved September 2, 2012, from http://www.nsf.gov/pubs/stis1995/nsf9565/nsf9565.txt
Noakes, N., Chow, C. C. L., Ko, E., & McKay, G. (2011). Safety education for chemical engineering students in Hong Kong: Development of HAZOP Study teaching module. Education for Chemical Engineers, 6(2), 31-55.
Novak, J. D. & Musonda, D. (1991). A twelve-year longitudinal study of science concept learning. American Educational Research Journal, 28(1), 117-153.
Obama, B. (2009). Remarks made by the President at the National Academy of Sciences annual meeting. Retrieved September 28, 2012, from http://www.whitehouse.gov/the_press_office/Remarks-by-the-President-at-the-National-Academy-of-Sciences-Annual-Meeting/
Orhun, N. (2012). The relationship between learning styles and achievement in calculus course for engineering students. Procedia - Social and Behavioral Sciences, 47, 638-642.
Oskay, Ö. Ö., Erdem, E., Akkoyunlu, B., & Yılmaz, A. (2010). Prospective chemistry teachers’ learning styles and learning preferences. Procedia - Social and Behavioral Sciences, 2(2), 1362-1367.
Panadero, C. F., Román, J. V., & Kloos, C. D. (2010, April). Impact of learning experiences using LEGO Mindstorms® in engineering courses. Paper presented at the Education Engineering, Madrid, Spain.
Pask, G. (1988). Learning strategies, teaching strategies, and conceptual or learning styles. In Schmeck, R. R. (Ed.), Learning Strategies and Learning Styles (pp. 83-100). New York: Plenum.
Pinto, J. K., Geiger, M. A., & Boyle, E. J. (1994). A three-year longitudinal study of changes in student learning styles. Journal of College Student Development, 35(2), 113-119.
Rasul, S., Bukhsh, Q., & Batool, S. (2011). A study to analyze the effectiveness of audio visual aids in teaching learning process at uvniversity level. Procedia - Social and Behavioral Sciences, 28, 78-81.
Ríos, I. d. l., Cazorla, A., Díaz-Puente, J. M., & Yagüe, J. L. (2010). Project–based learning in engineering higher education: Two decades of teaching competences in real environments. Procedia - Social and Behavioral Sciences, 2(2), 1368-1378.
Rivera-Guillen, J. R., de Jesus Rangel-Magdaleno, J., de Jesus Romero-Troncoso, R., Osornio-Rios, R. A., & Guevara-Gonzalez, R. G. (2012). An open-access educational tool for teaching motion dynamics in multi-axis servomotor control. Education, IEEE Transactions on, 55(2), 218-225.
Saleh, F., Rahman, S. A., & Saleh, S. (2010). Pedagogical negotiations between conventional and innovative strategies in teaching KBSR mathematics: The inspire project. Procedia - Social and Behavioral Sciences, 8, 152-157.
Sanchez, A., & Bucio, J. (2012). Improving the teaching of discrete-event control systems using a LEGO manufacturing prototype. Education, IEEE Transactions on, 55(3), 326-331.
Schaf, F. M., Müller, D., Bruns, F. W., Pereira, C. E., & Erbe, H. H. (2009). Collaborative learning and engineering workspaces. Annual Reviews in Control, 33(2), 246-252.
Silver, H., Strong, R. W., & Perini, M. J. (1997). Integrating learning styles and multiple intelligences. Educational Leadership, 55(1), 22-27.
Starkweather, K. N. (2004). Creating technology literate nations through the relationship between technology and engineering education. Presented in 2004 Engineering and Technological Educational Literacy Conference, Taiwan.
Statnikov, R. B. (1999). Multicriteria design: Optimization and identification. Dordrecth, Netherlands: Kluwer Academic.
Tanner, K. & Allen, D. (2004). Approaches to biology teaching and learning: Learning styles and the problem of instructional selection-engaging all students in science courses. Cell Biol Educ, 3, 197–201.
Williams, B., Brown, T., & Etherington, J. (2013). Learning style preferences of undergraduate pharmacy students. Currents in Pharmacy Teaching and Learning, 5(2), 110-119.
Yilmaz, M., Jianhong, R., Custer, S., & Coleman, J. (2010). Hands-on summer camp to attract K-12 students to engineering fields. Education, IEEE Transactions on, 53(1), 144-151.