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研究生: 劉家瑜
Liu, Chia-Yu
論文名稱: 探討科學領域教學團隊的創意互動及其脈絡因素
Exploring the creative interactions and contextual factors of a scientific teacher group
指導教授: 吳昭容
Wu, Chao-Jung
林偉文
Lin, Wei-Wen
學位類別: 博士
Doctor
系所名稱: 教育心理與輔導學系
Department of Educational Psychology and Counseling
論文出版年: 2018
畢業學年度: 106
語文別: 中文
論文頁數: 253
中文關鍵詞: 系統模式科學教學創新教師專業社群團隊創造力
英文關鍵詞: Group creativity, Scientific creative teaching, Systems approach, Teacher groups
DOI URL: http://doi.org/10.6345/DIS.NTNU.DEPC.015.2018.F02
論文種類: 學術論文
相關次數: 點閱:289下載:2
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  • 為幫助學生有創意的探索科學,並習得可因應各種挑戰的能力,科學教師應發展具彈性、支持性與回應性的教學方法,以有效達成教學目標-此即為教師的教學創新能力。然而,教學現場的教師常面臨著學科專業知識、教學知識與教學信心不足的挑戰,使其未能跳脫傳統講授式教學之窠臼。教師若要克服教學上的挑戰,便需要持續學習,而參與教師專業學習社群便是提供專業學習成長及孕育合作探究文化的最佳途徑之一。在教師社群中,教師們共同以改進教學與促進學生學習為目標,持續性地集思廣益課程設計與教學計畫,抑或解決教學上的問題,實為發展教學團隊創造力的重要基礎。過去雖有許多針對教師團隊與社群的研究,但關注焦點多僅為團隊成員特質、團隊背景資料與組織情境等脈絡因素,或為團隊創造力之最終成品,少有直接探討教學團隊發展團隊創造力的對話歷程。因此,本研究旨在探討一個國中科學教學團隊如何對話及互動以產生教學創新,並釐清其脈絡層面的可能影響。本研究採轉換混合設計法(mixed method),藉由參與觀察與訪談等方式了解成員間的互動層面,並轉化Csikszentmihalyi系統模式之理論架構,探究教師、教學團隊與共享知識系統等脈絡層面。研究結果共有三個主要發現:一、釐清此科學教學團隊中「互動層面」之內涵與動態關係,並建構互動層面之團隊創造力模式。在此模式中,成員以簡答及認同等基本對話元素促使團隊運作,並持續表現可增進團隊討論之任務相關行為與互動相關行為,其涵括五個階段:(一)目標性的脈絡:團隊成員對於團隊目標及方向擁有共享的理解;(二)擴展:團隊成員拋出教學想法、可能的替代方案與資源分享,以延展團隊思考;(三)理解:團隊成員以深入解釋、尋求說明及回饋等方式,深化團隊知識基礎;(四)暫停:團隊成員會藉由課程相關閒聊的方式,暫時轉移注意力,以考量更多可能性,並淬鍊出更具適切性之創意想法;(五)訊息精緻化:團隊成員考量不同教學情境,將拋出的想法與訊息加以轉化。值得注意的是,這些階段並非線性固定的,在任何一個階段內,都可能發生部分或全部階段所形成的小循環。二、釐清此科學教學團隊背後之教師、教學團隊及共享知識系統等「脈絡層面」之內部狀態與動態關係,並建構脈絡層面之團隊創造力模式。首先,本研究發現此團隊成員在個人之脈絡層面上,具備充足的學科專業知能、求新求變的人格特質、高自發性的學習動機以及多元的教學相關經驗。關於教學團隊之脈絡層面,此團隊具備可彈性調整的團隊規模、穩定的團隊運作、多樣化的成員主修科系及學生班級特性、學習目標導向、高度共識、共享式領導以及正向團隊氛圍。在共享知識系統之脈絡層面上,此團隊之主要領導者具備科學領域知識、教學知識、科學教學知識等知識系統,以及教具製作與使用的經驗,並能以此傳承給其他團隊成員。三、整合互動及脈絡層面,建置脈絡-互動層面團隊創造力模式。此即為以三大脈絡層面為支撐基礎,讓團隊創意想法在「擴展」與「理解」等互動層面的螺旋式循環下,持續發展訊息精緻化,最後產生團隊創造力。
    整體而言,本研究藉由混合設計法釐清科學教學團隊發展團隊創造力的互動及脈絡層面因素,並建置脈絡-互動層面團隊創造力模式;文末將以研究結果與文獻進行綜合討論,並為有意參與或籌組教師專業社群之科學教師提供具體的行動策略及建議。

    To help students explore science in a creative way and gain the abilities to deal with all kinds of challenges, science teachers have to develop flexible, supportive and responsive teaching methods to meet their teaching targets, that is, to develop the ability of teaching creativily. However, traditional teacher-centered methods are still adopted since teachers’ difficulities of inadequate content knowledge, limited pedagogical knowledge, and lack of confidence that they usually encountered. Teachers have to keep learning to conquer the challenges in their teaching. Professional learning communities, or PLC, is one of the best ways for teachers’ professional learning and cultivating the culture of collaborative inquiry. In PLC, teachers work collaboratively to generate teaching plans, curriculum designs or solutions for their unique situations in order to achieve the goals that improving their teaching and students’ learning, which might be the base of teachers’ group creativity. Previous studies of PLC have focused on contextual factors, such as characteristics of group members, demography of group, and organizational situation, or their pdoduct of group creativity, instead of their ongoing procress of developing group creativity.
    Therefore, this study aims to clarify the developing process of teaching group creativity by exploring the interactional aspect and contextual aspect of individual, teacher group, and shared knowledge system which adapted form Csikszentmihalyi’s systems model within a middle school science teaching group. The mixed-method approach was adopted and participant observatins and interviews were used for data collection and analysis. The main results of the study are as fallows: 1. The interactional aspect of group creativity model was constructed, and five stages were included: (1) Goal-oriented context stage: Group members achieved shared understanding in group goals and directions; (2) Expanding stage: Group members demonstrated multiple teaching ideas proposing, alternative solution raising, and teaching resources sharing to broaden group’s thinkings in extensive stage; (3) Understanding stage: Group members performed illustration seeking, explaining, and feedback to reinforce group’s knowledge basis in understand stage; (4) Suspending stage: By distracting their attentions temporarily, group members considered more possibilities and developed appropriate ideas; (5) Information elaborating stage: Within the spiral circulation of the two stages, ideas and informations were elaborated through contextualization and combination. It is noteworthy that the stages are nonlinear but circles that might be generated within single or multiple stages. 2. The contextual aspect of group creativity model was clarified, including the levels of individual, teacher group, and shared knowledge system. At the level of individual, the group members possessed adequate professional competences, personality that seeking for changes, learning motivation, and diverse teaching experiences. At the level of teacher group, this group had flexible group size, stable group working process, diversity of members’ majors and characteristics of their students, learning goal orientation, consensus of group goals, shared leadership and positive group climate. At the level of shared knowledge system, the main leader of this group had extensive content knowledge, pedagogical knowledge, pedagogical content knowledge, and sufficient skills of making and using props, which all could be inherited to other members. 3. The contextual-interactional aspect of group creativity model was constructed by integrating the two aspects that mentioned above. Group creativity developed and elaborated in the spiral circulation between stages of expanding and understanding in individual, group, and domain in contextual aspects.
    In sum, this study explored the interactional aspect and contextual aspect of a scientific teaching group through mixed-method approach to clarify the process of developing group creativity, and built up the contextual-interactional aspect of group creativity model. Based on the results, relevant empirical and theoretical research have been discussed, and the pratical suggetions for scientific teacher groups have also been proposed.

    目次 謝誌 i 中文摘要 iii 英文摘要 v 目次 viii 表次 x 圖次 xii 第一章 緒論 1 第一節 研究動機與目的 1 第二節 主要名詞定義 4 第二章 文獻探討 7 第一節 教學創新與科學教學創新 7 第二節 影響教學團隊發展創新的相關因素 13 第三節 團隊創造力 20 第三章 研究方法 53 第一節 研究架構與流程 53 第二節 個案選擇 55 第三節 資料蒐集 57 第四節 資料分析 60 第五節 研究者角色 65 第六節 研究倫理 66 第七節 研究可信賴性的確認 67 第四章 結果與討論 71 第一節 科學教學創新的內涵 71 第二節 互動層面之團隊創造力模式 83 第三節 脈絡層面之團隊創造力模式 132 第五章 結論與建議 153 第一節 結論 153 第二節 實務意涵 166 第三節 研究限制及未來建議 171 參考文獻 175 中文部分 175 西文部分 178 附錄 213 附錄一 A團隊觀察日誌(共六次) 213 附錄二 B團隊觀察日誌(共一次) 224 附錄三 C團隊觀察日誌(共一次) 225 附錄四 D團隊觀察日誌(共八次) 227 附錄五 抽取出之教學想法 244 附錄六 團隊參與觀察之邀約信 246 附錄七 團隊參與觀察之知情同意書 247 附錄八 兩階段創新性及適切性教學想法高分組之對話元素次數 249 表次 表2–1  不同學者所提的影響團隊創造力因素 32 表3–1  受訪團隊成員之背景資料 58 表3–2  參與成員之訪談大綱 59 表3–3  評分專家之背景資料 59 表3–4  評分專家之訪談大綱 60 表4–1  第一階段評分專家在三個教學想法之原始與訪談評分 72 表4–2  第二階段評分專家在三個教學想法之原始與訪談評分 73 表4–3  評分專家對創新性觀點之第一階因素 74 表4–4  評分專家對創新性觀點之分析結果 75 表4–5  評分專家對適切性觀點之第一階因素 79 表4–6  評分專家對適切性觀點之分析結果 80 表4–7  團隊討論歷程對話元素之分析結果 87 表4–8  第一階段教學想法之描述性統計資料 96 表4–9  提高標準後教學想法在適切性向度之描述性統計資料(第一階段) 98 表4–10 第二階段教學想法之描述性統計資料 99 表4–11 提高標準後之描述性統計資料(第二階段) 101 表4–12 兩階段創新性與適切性教學想法高分組具備之基本對話元素 102 表4–13 第一階段教學想法在創新性向度之無母數檢定分析 104 表4–14 第一階段教學想法在適切性向度之無母數檢定分析 105 表4–15 提高標準後教學想法在適切性向度之無母數檢定分析(第一階段) 107 表4–16 第二階段教學想法在創新性向度之無母數檢定分析 111 表4–17 第二階段教學想法在適切性向度之無母數檢定分析 113 表4–18 提高標準後教學想法在創新性向度之無母數檢定分析(第二階段) 115 表4–19 提高標準後教學想法在適切性向度之無母數檢定分析(第二階段) 116 表4–20 兩階段創新性與適切性教學想法高低分組於各對話元素之差異情形 118 表4–21 成員觀點之團隊創造力模式的逐字稿摘錄 122 表4–22 受訪者認為重要之團隊討論歷程對話元素 125 表4–23 以成員觀點檢視其他背景因素之分析結果 128 表4–24 科學教學團隊於三大脈絡層面之分析結果 145 圖次 圖2–1 創造力的系統模式 16 圖2–2 科學教學團隊創造力之模式 18 圖3–1 研究流程 54 圖4–1 第一階段之互動層面團隊創造力初步模式 110 圖4–2 整合兩階段資料之互動層面團隊創造力初步模式 121 圖4–3 互動層面之團隊創造力模式 131 圖4–4 脈絡-互動層面團隊創造力模式 152

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