研究生: |
簡正忠 Cheng-Chung Chien |
---|---|
論文名稱: |
探究式教學專業發展網站之建置及其對科學教師之影響 The Construction of an Online Professional Development for the Promotion of Science Teachers' Understanding of Inquiry-Based Teaching |
指導教授: |
林如章
Lin, Ru-Jang |
學位類別: |
碩士 Master |
系所名稱: |
化學系 Department of Chemistry |
論文出版年: | 2003 |
畢業學年度: | 91 |
語文別: | 中文 |
論文頁數: | 186 |
中文關鍵詞: | 探究式教學 、網路化探究活動 、專業發展網站 |
英文關鍵詞: | inquiry-based teaching, web-based inquiry, web-based professional development |
論文種類: | 學術論文 |
相關次數: | 點閱:267 下載:0 |
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探究(inquiry)是用來形容好的科學教學法之核心用詞,在學習理論及實徵研究上都突顯出重要價值,並受到各國課程標準的重視,成為科學教育改革的一大突破點。不過,在行政、技術、師資等諸多因素無法配合的情況下,探究式教學在科學教室中仍舊處於邊緣地位。歸咎原因,最基本而關鍵的因素之一就是科學教師缺乏進行探究式教學的能力,甚至對探究式教學仍然一知半解。
因此,本研究目的在建置探究式教學專業發展網站,使科學教師於瀏覽網站時,能夠在網站內容與教學實務相關的情境下,以探究的方式來理解什麼是探究式教學,並進而認同且願意施行此教學。研究中先採用內容分析法評析所建置之網站,再以問卷調查及半結構晤談法收集10位教師對網站形式的看法,最後探討7位教師在瀏覽網站後,對科學教學的想法有何改變。以下為本研究的結果:
1.本網站以兩個在量(發現5個主要差別)以及質(發現67項教學特徵)上都不同的教學影片為題材,來顯示探究式與非探究式教學的差異。
2.本網站之內容包含探究式教學與非探究式教學的對照指標,以及引導式探究到開放式探究的漸進實例等資訊,並符合Ash & Kluger-Bell(2000)、NRC(2000)、Piburn et al.(2000)、CSSS(2001)與Anderson(2002)等人或組織所發展的5種探究式教學規準,且涵蓋這些規準95%以上。
3.本網站以「問題情境」導入,並能使瀏覽之教師經歷「設計探究」、「執行探究」、「提出解釋」、「評估解釋」、「傳達解釋」,以及「評論與回應」等過程(平均80%以上同意)。而且教師認為本網站的形式,比起非探究取向的網站,更能使他們「主動參與」、「重視思考過程」、「知道多元的想法」、「了解自己的學習狀況」與「願意修正自己的想法」。
4.大部分教師在瀏覽本網站後,能夠理解(7/7)、認同(6/7)並願意施行(5/7)探究式教學。亦即整體而言,本網站在提昇科學教師對探究式教學的理解、認同感與施行意願上,具有正向的效果。
根據以上結論,本研究對「如何進行探究式教學?」、「如何促使科學教師進行探究式教學?」以及未來研究方向提出多項建議。
“Inquiry” is a keyword used to characterize good science teaching and its value has been illustrated in learning theories and empirical studies, so it becomes a prominent feature in various science education standards and a breakthrough point in science education reform.
However, inquiry-based teaching and learning is still unobvious in most classrooms now, because there are many barriers such as inappropriate administration, insufficiency in technique, and unprepared teachers. The most essential factor of these barriers is that science teachers are not good at teaching through inquiry, and furthermore they might have no idea what inquiry-based teaching means.
The purpose of this study is thus to construct a web-based and inquiry-based professionally developing method which leads teachers to inquire what inquiry-based teaching means, and through it, promote science teachers' understanding of inquiry-based teaching.
In this study, we constructed a website first, then interviewed ten teachers to grasp their opinions about the contents of this website, and finally studied the concept change of seven teachers on science teaching after their visiting this website. The results of this research are as follows:
1.This website provides two kinds of video clips in quantity (5 main differences found) and quality (69 items found) to show the differences between inquiry-based and non-inquiry-based teaching.
2.The contents of this website conclude contrast indicators and variations (from guided inquiry to open-ended inquiry) of inquiry-based teaching, and cover at least 95% of inquiry-based teaching rubrics which were developed by Ash & Kluger-Bell (2000), NRC (2000), Piburn et al. (2000), CSSS (2001) and Anderson (2002).
3.This website is problem-oriented and considered to be able to provide teachers (visitors) to go through the processes of designing investigations, conducting investigations, proposing explanations, evaluating explanations, communicating explanations, justifying and responding (over 80% agreement). In addition, compared with a non-inquiry-based website, visitors thought this inquiry-oriented website showed high potential to make them pay more effort in participating actively, placing importance on thinking process, accepting multiple ideas, recognizing one's own learning conditions, and revising one's own concepts willingly.
4.After visiting this website, most interviewed teachers said that they could understand (7/7), accept (6/7) and want to do (5/7) inquiry-based teaching. In other words, this website has essentially shown a positive effect on science teachers to teach through inquiry.
In the conclusions, the suggestions to answer the questions: “How to teach through inquiry?”, “How to encourage science teachers to teach through inquiry?” and future researches are proposed.
一、中文部分:
王靜如(1999):系統化改變國小自然科學教學之研究。1999行動研究國際學術研討會論文集。台東:國立台東師範學院。
何俊彥(2002):合作學習的探究式實驗對實驗室氣氛的影響。國立高雄師範大學化學研究所碩士論文。
林重新(2001):教育研究法。臺北:揚智文化。
林清江(1998):國民教育九年一貫課程規劃專案報告(立法院教育委員會第三屆第六會期)。臺北:教育部。
林福樹(1996):引導式發現教學模式之探討。化學教學面面觀,132-133。臺北:國立台灣師範大學中等教育輔導委員會。
金葉葦(2002):高中化學教學實施「開放性探究實驗」之探討。國立高雄師範大學化學研究所碩士論文。
侯政宏(1996):探究式教學法與講述式教學法在國中地球科學「太陽視運動」單元中學生學習成效之比較。國立臺灣師範大學地球科學研究所碩士論文。
侯香伶(2002):科學探究活動中的科學本質面貌對國一生科學本質觀之影響。國立彰化師範大學科學教育研究所碩士論文。
唐國詩(1996):探究式教學法與講述式教學法在國中地球科學「星象」單元中學生學習成效之比較。國立臺灣師範大學地球科學研究所碩士論文。
陳文典(2001):課程變革對教學及學習模式的衝擊及其可能的回應。2001年國際科學教育研討會─數理統整課程與教材發展新策略與實務手冊,71-74。臺北:國立台灣師範大學。
教育部(1998):國民教育階段九年一貫課程總綱綱要。臺北:教育部。
教育部(2000):國民中小學課程綱要-自然與生活科技學習領域。臺北:教育部。
張秀菊(1997):「探究式教學法」與「講述式教學法」在國中地球科學「氣象」單元中學生學習成效比較。國立臺灣師範大學地球科學研究所碩士論文。
張煇志(2001):運用網路社群互動協助小學生進行科學探究。「廿一世紀教育改革與教育發展」國際學術論文研討會,147-166。彰化:國立彰化師範大學。
黃志賢(2003):科學探究教學模組對國小中年級兒童科學本質觀影響之行動研究。屏東師範學院數理教育研究所碩士論文。
黃鴻博(2000):師院學生科學探究教學能力培養之行動研究。第十六屆科學教育學術研討會短篇論文彙編,745-750。臺北:國立台灣師範大學。
鄭永令(2002):上海物理高考改革思路與實踐。海峽兩岸數學與自然科學統整教學研討會,24-27。臺北:國立台灣師範大學。
鄭如琳(2000):國小教師實施「探究--建構教學模式」之行動研究--從「磁」的概念談起。國立臺北師範學院課程與教學研究所碩士論文。
鄭麗華(2002):以探究式實驗活動提升國二學生參與實驗活動及過程技能之行動研究。國立彰化師範大學科學教育研究所碩士論文。
劉宏文(2001):高中學生進行開放式科學探究活動之個案研究。彰化師範大學科學教育研究所博士論文。
歐用生(1991):內容分析法。載於黃光雄、簡茂發主編,教育研究法,229~254。臺北:師大師苑。
饒見維(1999):九年一貫課程與教師專業發展之配套實施策略。邁向課程新紀元(一)-九年一貫課程研討會論文集。臺北:中華民國教材研究發展學會。
蘇麗涼(2002):國中理化實施探究導向教學對學生學習成效影響之研究。國立彰化師範大學科學教育研究所碩士論文。
中文網路資源(檢索日期皆為2003.05.31):
大陸教育部(2001):全日制義務教育化學課程標準(實驗稿)。大陸:教育部。(http://www.pep.com.cn/20021201/ca76769.htm)
王月玲(2002):山西省高中課程改革的現狀與對策。人教期刊網。
(http://www.pep.com.cn/200212/ca6470.htm)
任長松(2002):探究式學習18條原則。教育理論與實踐,1、2期。科學教育網。(http://data.sedu.org.cn/course/costudy/1017128703.shtml)
吳曉蓉(2002):網路時代的教育趨向。教育評論。中國教育和科研計算機網。
(http://www.edu.cn/20020228/3021340.shtml)
李寶敏(2001):基於網路環境下的互動活動理論的探討與研究。上海教育,18期。中國教育和科研計算機網。
(http://www.edu.cn/20011015/3004862.shtml)
張偉遠(2002):遠端教育與網路運用之研究。中國遠程教育月刊,7期。中國遠程教育月刊網。(http://www.open.edu.cn/ycjy/benkan.php?id=19)
張華(2001):論「研究性學習」課程的本質。教育發展研究,5期。中國教育和科研計算機網。(http://www.edu.cn/20010827/208971.shtml)
黃冬芳、馬勝利(2001):應用現代資訊技術促進中學化學探究性學習的教學策略研究。北京教育科學研究院2001年學術年會論文選粹專輯。北京教研網。(http://www.bjjy.net/wencui/2001nhui/huangdongfang.doc)
單美賢、李藝(2001):網路課程體系的構建原則。全球教育展望,11期。中國教育和科研計算機網。
(http://www.edu.cn/20011224/3015132.shtml)
鄭世良(2002):E-learning的整體特徵分析。教育技術通訊,1期。中國教育和科研計算機網。(http://www.edu.cn/20020110/3016982.shtml)
蔡培陽(2003):解讀我國初中科學課程改革的新理念。人教期刊網。(http://www.pep.com.cn/200301/ca108961.htm)
羅星凱、李萍昌(2001):探究式學習:含義、特徵及核心要素。教育研究,12期。中國教育及科研計算機網。
(http://www.net.edu.cn/20020107/3016500.shtml)
顧泠沅(2000):美國教育考察報告(四)。上海教育科研,10期。上海教育科研網。(http://202.121.15.143:82/)
二、英文部分:
Adams, P. E., & Krockover, G. H. (1997). Concerns and perceptions of beginning secondary science and mathematics teachers. Science Education, 81, 29-50.
American Association for the Advancement of Science. (1993). Benchmarks for Science Literacy: Project 2061. New York: Oxford University Press.
Anderson , R. D. (1996). Study of Curriculum Reform. Washington, DC: U.S. Government Printing Office.
Anderson, R. D. (2002). Reforming science teaching: what research says about inquiry. Journal of Science Teacher Education. 13(1), 1-12.
Ash, D., & Kluger-Bell, B. (2000). Identifying Inquiry in the K-5 Classroom. Inquiry : Thoughts, Views, and Strategies for the K-5 Classroom. Washington, DC: National Science Foundation.
Bransford, J. D., Brown, A. L., & Cocking, R. R. (2000). How People Learn: Brain, Mind, Experience, and School. Washington, DC: National Academy Press.
Byers, A. & Fitzgerald, M. A. (2002). Networking for leadership, inquiry, and systemic thinking: a new approach to inquiry-based learning. Journal of Science Education and Technology, 11, 81-91.
Chinn, C. A., & Malhotra, B. A. (2002). Epistemologically authentic inquiry in schools: A theoretical framework for evaluating inquiry tasks. Science Education, 86(2), 175-218.
Costenson, K., & Lawson, A. E. (1986). Why isn’t inquiry used in more classrooms? American Biology Teacher, 48, 150-158.
Haury, D. L. (1993). Teaching science through inquiry. ERIC CSMEE Digest. (ERIC Document No. ED 359048)
Hayes, M. T. (2002). Elementary preservice teachers’ struggles to define inquiry-based science teaching. Journal of Science Teacher Education, 13(2), 147-165.
Haynie, E. C. (2000). Engaging students in science research. The Science Teacher, 67(3), 8.
Karplus, R. (1977). Science teaching and the development of reasoning. Journal of Research in Science Teaching, 14 , 167-175.
King, M. B. (2002). Professional development to promote schoolwide inquiry. Teaching and Teacher Education, 18, 243-257.
Krajcik, J. S., Blumenfeld, P. C., Marx, R. W., & Soloway, E. (1994). A collaborative model for helping middle grade science teachers learn project-based instruction. The Elementary School Journal, 94(5), 483-497.
Lazarowitz, R., & Tamir, P.(1994). Research on using laboratory instruction in science. In Gabel, D. L. (Ed.), Handbook of Research on Science Teaching and Learning. New York: Macmillan, 94-128.
Loucks-Horsley, S., Hewson, P. W., Love, N., & Stiles, K. E. (1998). Designing Professional Development for Teachers of Science and Mathematics. Thousand Oaks, CA: Corwin Press, Inc.
Martin-Hansen, L. (2002). Defining inquiry: Exploring the many types of inquiry in the science classroom. The Science Teacher, 69(2), 34-37.
National Research Council. (1996). The National Science Education Standards. Washington, DC: National Academy Press.
National Research Council. (2000). Inquiry and the National Science Education Standards: A Guide for Teaching and Learning. Washington, DC: National Academy Press.
Ogle, D.M. (1986). K-W-L: A teaching model that develops active reading of expository text. Reading Teacher, 39, 564-570.
Radford, D. L. (1998). Transferring theory into practice: a model for professional development for science education reform. Journal of research in science teaching, 35, 74-89.
Von Secker, C. E., & Lissitz, R. W. (1999). Estimating the impact of instructional practices on student achievement in science. Journal of Research in Science Teaching, 36, 1110-1126.
Wise, K. C. (1996). Strategies for teaching science: What works? The Clearing House, 69, 337-338.
Yager, R. E. (1997). Invited paper. The Science Teacher, 64, 8.
英文網路資源(檢索日期皆為2003.05.31):
Council of State Science Supervisors (2001). Rubric for evaluating essential features of facilitating classroom inquiry. Networking for Leadership, Inquiry and Systemic Thinking web site.
(http://www.inquiryscience.com/documents/InstructionR.pdf)
Council of State Science Supervisors (2002). Assessing instruction for inquiry: a workshop. Networking for Leadership, Inquiry and Systemic Thinking web site.
(http://www.inquiryscience.com/documents/InstructionW.pdf)
Exploratorium Institute. (1998). Professional development tools for inquiry-
based science. Exploratorium Institute for Inquiry web site.
(http://www.exploratorium.edu/ifi/index.html)
Piburn, M., Sawada, D., Falconer, K., Turley, J. Benford, R., Bloom, I. (2000). Reformed Teaching Observation Protocol (RTOP): Reference Manual (ACEPT Technical Report No. IN00-3). Tempe: Arizona State University.
(http://purcell.phy.nau.edu/AZTEC/rtop/RTOP_full/PDF/)