高職機械科學生個人創造力及其影響因素之研究－以奈米科技概念知識學習為例_

:::

詳目顯示

第 1 筆 / 總合 1 筆

/1頁

論文基本資料
摘要
外文摘要
參考文獻

題名：	高職機械科學生個人創造力及其影響因素之研究－以奈米科技概念知識學習為例
作者：	袁宇熙
作者(外文)：	Yu-Hsi Yuan
校院名稱：	國立臺灣師範大學
系所名稱：	工業教育學系
指導教授：	吳明雄李金泉
學位類別：	博士
出版日期：	2012
主題關鍵詞：	技職教育；融入式教學法；奈米科技；創造力；數位多媒體教材；vocational education；infused curriculum；nanotechnology；creativity；digital multi-media material
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:0 共同引用:0 點閱:1

奈米科技因為科技的發達而成為各國重要的尖端發展領域，其中人才的培育更是關鍵因素。臺灣因為優秀的技職人才，乃造就了舉世驚羨的臺灣經濟奇蹟，然面對日益激烈的國際競爭情勢，更有必要提早著手進行技職人才的科技培育工作。有鑑於此，本研究乃藉由奈米科技、學習理論、數位多媒體教材、創造力教育等相關文獻之回顧，研究者參與適合高職機械科學生專業科目學習的融入式教學法與數位多媒體教材之建構。研究樣本經立意取樣選取公立高職機械科二個班級、私立高職兩個班級為實驗組，施予融入式奈米科技概念知識揉合創造力啟發教學；而另選取公立高職機械科四個班級、私立高職二個班級為控制組，僅實施原課程科目單元之教學。研究工具乃分別就國內外相關研究量表加以選取，經原作者同意後，敦請專家學者就題意進行適當修正，引以為本研究之心理意象表徵的量測工具。實驗教學的期程分別為機械製造實施六周，合計11個單元；機械材料則進行十四周，合計29個單元的奈米科技概念知識學習揉合創造力啟發教學於99學年實施。經前測、實驗教學與後測進行研究資料的蒐集後，應用雙因子多變量變異數(two-way MONCOVA)分析及結構方程模式(structural equation modeling)為資料分析方法，進行研究資料之分析。
分析結果顯示公私立學校實驗組的創意自我效能與個人創造力分數無顯著差異；公立學校的實驗組與控制組在創意自我效能與個人創造力分數同樣無顯著差異；然私立學校的實驗組之創意自我效能與個人創造力分數則顯著優於控制組學生。再經實驗處理效果量(power)之檢定，顯示教學效果達到中等效果量。接著，依據文獻所提出的個人創造力影響因素模式，經實驗組樣本群代入模式後檢定結果顯示達到良好適配水準，使研究假設模式獲得支持，且支持班級因素、個人因素及家庭因素皆對學生的創意自我效能及個人創造力有顯著正向影響力；然控制組樣本群的檢定結果，則顯示班級因素僅能影響個人創造力，且家庭因素對於受測學生的創意自我效能及個人創造力皆不具影響力；同樣的，兩群組結構平均數差異性檢定結果，同樣支持模式分析之發現。
研究建議方面，就學術建議部分提出：1.研究量表具信效度，可資後續相關研究參考之用；2.個人創造力影響因素模式獲得良好適配，顯示模式可供教學單位進行奈米科技概念知識學習揉合創造力啟發教學參考之用。另就實務上之建議，則提出：1.奈米科技概念知識與創造力啟發之數位多媒體教材可供相關教材開發單位發展教材時的參考；2.融入式奈米科技概念知識學習揉合創造力啟發教學模式亦可供相關教學單位研擬教學模式時之參考。對未來相關研究之建議：1.可考量增加實驗場景外來變異因素之控制、單位內異質性因素之控制、新奇與干擾的影響因素、對實驗情況的反應干擾等實驗控制變項之掌控；2.可進一步探討學業成就導向班級氣氛與創造力之間的關係；3.可考量擴大樣本數，或擴大實施科別，以再驗證實驗教學效果。

以文找文

Nanotechnology becomes one essential development of advanced technology in several nations due to the progress of science and technology. Taiwan’s economic miracle had been promoted by vocational talents in the past thirty years. However, it is necessary to engage in the cultivation of vocational talents earlier to face increasingly keen global competition based on increasingly keen international competition. Hence, the curriculum infused teaching methods and digital multi-media materials for vocational high school students at Department of Machinery. Researcher was participated the development of the materials that established based on the related literature review such as nanotechnology, learning theory, multi-digital materials, and creativity education. Four classes were selected from public and private vocational high schools respectively and were assigned to an experimental group through judgmental sampling, further. On the other hand, another four classes from public vocational high school and another two classes from private vocational high school were selected and assigned to a control group respectively. A designed package of nanotechnology concept knowledge learning and inspired teaching for creativity were used as the treatment for the experimental groups, whereas, the control groups without inspired teaching for creativity in this research. Related questionnaires from the literature review were employed as the research tool; further, the item modification was completed through an expert meeting after receiving the authorized letters from authors. The procedure of the experimental treatment includes eleven units within six weeks for the subject of Machinery Manufacturing, and twenty-nine units within eleven weeks for the subject of Mechanical Materials in the year of 2011. The research data were obtained through pre-test, inspired teaching for creativity, and post-test. Research data were collected by the questionnaire survey. The result supported that the scores of the experimental group students' creative self-efficacy and personal creativity were higher than the control group students'. Lastly, a theoretical model was approved via Structural Equation Modeling and reached a good-of-fit level. Two-way MANCOVA and Structural Equation Modeling (SEM) were used for the data analysis.
The result shows that there is no significant discrepancy in the scores of creativity self-efficacy and personal creativity between the public school students and the private school students. Further, the researcher found that no significant discrepancy was in the scores of creativity self-efficiency and personal creativity between the experimental groups and the control groups in the public schools as well. However, the experimental group had the scores of creativity self-efficacy and personal creativity significantly higher than the control groups. The power examination result shows that the experimental treatment reached the medium size. According to the literature review, a developed “Affective Factor Model of Personal Creativity” had been examined through the experimental group samples and the result of a good-of-fit test supported the hypothesized model. Moreover, the result supported that the class factor, individual factor, and family factor affected creativity self-efficacy and personal creativity positively in the experimental group, while the class factor affected personal creativity only in the control group. What is more, the family factor had no effect on creativity self-efficacy and personal creativity in the control group. Meantime, the test result of two-group structural means complied with the result of model fit examination.
The suggestions were made according to the research findings. In the academic term, the suggestions are: 1. the validated research tool could be applied for related researches; 2. the Affective Factor Model of Personal Creativity could be a reference for researchers in educational settings. In practice, the suggestions include: 1. the digital multi-media materials could be a reference for developers of related teaching materials; 2. the teaching model could be a reference for curriculum developers. Finally, the suggestions for future researchers are: 1. related experimental control variables, such as external variance factors in an experimental design, unit heterogeneous factors, novelty and interference factors, reaction and interference in an experimental design, should be in charge by researchers; 2. the relationship between the academic achievement-oriented classroom climate and creativity should be further explored; 3. for re-examining the contribution of the experimental teaching, increasing the sample size or involving more subjects could be carried out in the future research.

以文找文

毛連塭、郭有遹、陳龍安、林幸臺(2005)。創造力研究。臺北市︰心理。
毛連塭、陳麗華(1987)。精熟學習法。臺北市：心理。
王柏崴、黃禎貞、唐孝蘭、葉國樑、曾治乾(2009)。臺北市國中學生綠色消費知識、態度、行為意圖及其相關因素研究-以某國中為例。科學教育學刊，17(3)，255-274。
王振德(2004年11月)。情緒智力理論及其在資優教育的應用。發表於2004資優教育學術研討會專題演講，國立臺南大學主辦。
王淑娟(2002)。兒童選擇性緘默症問題分析與探討—三個實例研究。臺中師院學報，16，383-398。
朱繼農(2004年5月)。小學教師運用網路科技於資訊融入教學之問題探討。論文發表於香港中文大學所舉辦之「第八屆全球華人計算機教育應用大會(GCCCE 2004)」，香港。
江世豪、郭重吉(2004)。以認知腳本詮釋國一學生從事科學學習活動的知覺之初探。科學教育學刊，12(4)，445-468。
余民寧(2006)。潛在變項模式SIMPLIS的應用。臺北市：高等教育文化事業。
吳兆棋、何侑倫(2006)。奈米轉印國際發展現況。奈米機械技術專刊，279，29-42。
吳京(1997)。當前教育改革的目標方向及重點策略。研考雙月刊，21(3)，7-15。
吳明隆(2009a)。SPSS與統計應用分析。臺北市：五南。
吳明隆(2009b)。結構方程模式：AMOS的操作與應用。臺北市：五南。
吳明隆(2010)。SPSS操作與應用：變異數分析實務。臺北市：五南。
吳明雄、袁宇熙(2010)。運用學習理論建構產業導向的高職奈米科技教學模式之研究-運用學習理論建構產業導向的高職機械科奈米科技教學模式之研究(第三年計畫)。行政院國家科學委員會專題研究計畫(計畫編號：NSC97-2511-S003-037-MY3)，未出版。
吳明雄、張中一、饒達欽(2009)。高中職學生藝術創造力影響指標之研究：以全國競賽得獎學生為對象。藝術教育研究，16，1-31。
吳明雄、許碧珊、饒達欽、簡明忠、陳建宏、張中一、黃秀玉(2008)。高中生文學創造力相關因素測量指標之建構。師大學報：教育類，53(3)，67-93。
吳明雄、黃文振、許春梅(2008)。提升職校學生技術創造力可行作法之剖析。研習資訊，25(5)，11-18。
吳柏林、楊文山 (1997)。模糊統計在社會調查分析的應用，載於楊文山(主編)，社會科學計量方法發展與應用(頁289-316)。臺北市：中央研究院中山人文社會科學研究所。
吳清基(2003)。臺北市政府教育局施政報告書(臺北市議會第九屆第四會期)。臺北市：臺北市政府教育局。
吳清基(2006)。精緻教育的理念。臺北市：師大書苑。
吳清基(2011)。建國百年，技職登峰。技術與職業教育季刊，1(1)，2-6。
吳瑞源、吳慧敏(2008)。動畫教材之學習者控制播放模式與多媒體組合形式對學習成效與學習時間影響之研究。師大學報：科學教育類，53(1)，1-26。
吳靖國、魏韶潔(2007)。從聽故事的心理反應談故事教學之原則。教育科學期刊，7(10)，15-35。
吳靜吉(2002)。創造力的研究取向之回顧與展望。載於國立臺北師範學院主編，2002創造能力課程開發國際學術研討會手冊(頁7-20)。臺北市：國立臺北師範學院。
李子建、黃顯華(2002)。課程：範式、取向和設計。香港：中文大學出版。
李世光、胡毓忠(2004)。微機電系統與奈米科技。科學發展，378，56-61。
李明相(2006)。屏東縣國小學童綠色消費知識與綠色消費行為之研究。國立屏東教育大學教育行政研究所碩士論文，未出版，屏東市。
李明晉、許維素(2008)。學生「自我協調」之引發。學生輔導季刊，106，32-43。
李金泉(1996)。SPSS/ PC+實務與應用統計分析。臺北市：松崗。
李金泉、陳清檳(2007)。運用「安全學習模式」規劃及提昇科技大學學生工作安全素養之研究。國科會計畫(NSC96-2516-S218-002-MY2)。
李建興(2011)。十二年國教是紓解升學主義的良機。國政分析，教文(析)100-013號。2011年12月6日，取自：http://www.npf.org.tw/post/3/9415
李淑清(2002)。家庭因素對家庭綠色消費傾向影響之研究－以鳳山市家計單位為對象。義守大學管理科學研究所碩士論文，未出版，高雄縣。
李敦仁、余民寧(2005)。社經地位、手足數目、家庭教育資源與教育成就結構關係模式之驗證：以TEPS資料庫資料為例。臺灣教育社會學研究，5(2)，1-48。
李隆盛、侯世光、許全守、張良德、林坤誼(2005)。技職教育體系職業學校課程綱要的研訂與實施理念。商業職業教育季刊，96，13-21。
汪昱普、長昌郎(2008)。奈米塗佈紙張的表面性質分析研究。中華印刷科技年報，1-26。
孟繼洛(2003)。產學合作教育的新思維。技術及職業教育雙月刊，76，17-20。
林文寶(2002)。兒童文學故事體寫作。臺北：毛毛蟲兒童哲學基金會。
林玉貴(2001)。青少年及青年食品綠色消費認知、態度及行為研究。國立臺灣師範大學家政教育研究所碩士論文，未出版，臺北市。
林炎旦(2000)。職業類科教學方法。載於江文雄(主編)，職業類科教材教法。臺北市：師大書苑。
林俊瑩、吳裕益(2007)。家庭因素、學校因素對學生學業成就的影響：階層線性模式的分析。教育研究集刊，53(4)，107-144。
林清山(2007)。多變項統計分析法。臺北市：東華。
林逸媛(1992)。家庭環境與子女創造性之相關研究。國立政治大學社會研究所碩士論文，未出版，臺北市。
林麗華、林炎瑩(2004)。職業學校技能檢定訓練教學與實例之探討。士林高商學報，2，29-35。
林寶山(2001)。教學原理與技巧。臺北市：五南。
林寶山(2003)。實用教學原理。臺北市：心理。
林耀聰、鄭光閔、游光昭(2008)。應用自律學習理論發展科技學習模組。生活科技教育月刊，41(7)，13-29。
邱皓政(2003)。結構方程模式：LISREL 的理論技術與應用(初版)。臺北市：雙葉書廊。
邱皓政(2007)。量化研究方法(二)：統計原理與分析技術(初版三刷)。臺北市：雙葉書廊。
邱皓政(2008a)。創造力：當代理論與議題。臺北市：心理。
邱皓政(2008b)。結構方程模式：LISREL的理論、技術與應用。臺北市：雙葉書廊。
施文玲(2007)。以學習理論為基礎的數位化教學策略。生活科技教育月刊，40(2)，32-41。
洪素蘋(2004)。重要他人回饋、創意自我效能、內、外在動機對創意行為的影響：社會認知理論為基礎的結構方程模式檢驗。國立交通大學教育研究所碩士論文，未出版，新竹市。
洪素蘋、黃宏宇、林珊如(2008)。重要他人回饋影響創意生活經驗？以模式競爭方式檢驗創意自我效能與創意動機的中介效果。教育心理學報，40(2)，303-322。
洪銀杏(2001)。「教師即研究者」之行動研究：故事教學在低年級教室之實施。國立嘉義大學國民教育研究所碩士論文，未出版，嘉義。
洪曉菁(2002)。說故事研究。國立臺東師範學院兒童文學研究所碩士論文，未出版，臺東。
孫郁興(2005)。奈米科技史及其展望。中華科技史學會會刊，8，43-60。
徐愛鈞(2011)。偏遠地區國小六年級學童奈米科技教學之行動研究。臺北市立教育大學自然科學系碩士班，未出版碩士論文，臺北市。
徐新逸 (2003)。學校推動資訊融入教學的實施策略探究。教學科技與媒體，64，68-84。
徐椿樑(1980)。商工電子科儀器設備水準與學生學業成就之相關研究。國立臺灣師範大學工業教育學系，未出版碩士論文，臺北市。
翁榮源、莊坤鴻(2008)。遊戲式網路學習在「物質變化」單元之應用研究。生活科技教育月刊，41(6)，82-103。
馬遠榮(2002)。奈米科技。臺北市：商周出版。
高美莉(2009)。國小五年級學生利用動手做學習奈米科技概念之認知與態度。臺北市立教育大學自然科學系碩士班，未出版碩士論文，臺北市。
高逢時(2005)。奈米科技。科學發展月刊，386，66-71。
高廣孚(1988)。教學原理。臺北市：五南。
國科會(2002)。中華民國科學技術年鑑。臺北市：行政院國家科學委員會。
張世彗(2001)。創造力發展理論。創造思考教育，11，1-11。
張世彗(2007)。創造力理論、技法與教學。臺北市：五南。
張政義(2008)。奈米科技融入國小自然與生活科技課程之教學研究。物理教育學刊，9(1)，109-122。
張春興(1997)。教育心理學。臺北市：東華。
張春興、楊國樞(1996)。心理學。臺北市：東華。
張嘉育(2002)。學校本位課程改革。臺北市：師大書苑。
張嘉芬(1997)。國小高年級學生依附風格、創意教養環境與創造行為之關係。國立政治大學教育研究所碩士論文，未出版，臺北市。
教育百科辭典編審委員會主編(1994)。教育百科辭典。臺北市：五南。
教育部(2002)。創造力教育白皮書。臺北市：教育部。
教育部(2011)。高中職免學費方案。臺北市：教育部。
章英華(2001)。家庭與青少年行為之間：尋找中介機制。應用心理研究季刊，12，2-4。
郭生玉(1987)。心理與教育測驗。臺北市：精華。
郭有遹(1989)。創造的定義及其所衍生的問題。創造思考教育，1，10-12。
陳正昌、程炳林、陳新豐、劉子鍵(2005)。多變量分析方法：統計軟體應用(第四版)。臺北市：五南。
陳宗逸(1995)。家庭背景、教師行為、制握信念與國小學童創造思考相關之研究。國立屏東師範學院初等教育研究所碩士論文，未出版，屏東市。
陳招池(2001)。對傳統教學的顛覆與省思。師友月刊，411，48-50。
陳明溥(1998)。創新推廣理論與資訊教育推展。臺灣教育，572，2-10。
陳亮君(2008)。臺灣地區高級中等學校之公私立別、地區、規模與教育資源對學業成就之影響。國立政治大學教育學系，未出版碩士論文，臺北市。
陳昭儀(1992)。創造力的定義及研究。資優教育季刊，44，12-17。
陳昭儀(2000)。傑出表演藝術家個人特質之研究。資優教育研究，1(2)，1-28。
陳昭儀(2006)。臺灣傑出科學家之創造與生涯歷程。臺北市：五南。
陳昭儀、吳武典、陳智臣（2005）。我國創造力教育發展史。教育資料集刊，30，97-112。
陳偉昌(2001)。職業學校機械科學生技術能力與創造力之相關研究。國立臺灣師範大學工業教育研究所碩士論文，未出版，臺北市。
陳順宇(2007)。結構方程模式。臺北市：心理。
陳順宇、鄭碧娥(2007)。實驗設計。臺南市：成大圖書部。
陳鳳妤(2007)。國小奈米科技教學的設計與成效－以臺中市某國小為例。國立臺中教育大學自然科學教育學系碩士班，未出版碩士論文，臺中市。
陳龍安(1998)。臺灣創造力發展調查報告。創造思考教育，8，43-50。
陳麗君、蔡樹旺(2009年12月)。影響國小學童科學創造力相關因素之研究。中華民國第25屆科學教育學術研討會(2009年12月18日至19日)，國立臺灣師範大學科學教育研究主辦，臺北市：國立臺灣師範大學。
彭臺光、高月慈、林鉦棽(2006)。管理研究中的共同方法變異：問題本質、影響、測試和補救。管理學報，23(1)，77-98。
彭震球(1995)。自覺性的創造構造。創造思考教育，7，7-19。
彭鴻凱(2003)。臺灣精密機械產業新創公司之研究。國立交通大學科技管理研究所碩士論文，未出版，新竹市。
曾國鴻、陳沅(2005)。國小師生對奈米科技之熟悉度、學習需求及其融入課程研究。科學教育學刊，13(1)，101-120。
程小蘋、林杏足(2003)。國中輔導教師對青少年個案身心特徵、晤談問題及諮商作法之知覺分析。彰化師大輔導學報，25，133-174。
黃光雄(1996)。教學理論。高雄市：復文。
黃宏宇、洪素蘋(2005)。建構效度檢驗之線性與非線性取向：以學生創意自我效能量表為例。屏東教育大學學報：教育類，33，489-514。
黃志燻、余鑑(2008)。科技教育的研究與展望-從教學環境的角度探討。生活科技教育月刊，40(8)，25-44。
黃惠君、葉玉珠(2008)。國中教師教學玩興、教學動機、教學快樂感受與創意教學之關係。教育與心理研究，31(2)，85-118。
黃榮村(2010)。教育與人才培育。文章刊載於徐旭東，「遠東60周年白皮書：開創新猷預約大未來」。臺北市：財團法人徐元智先生紀念基金會。
黃鵬翔(2011)。國小六年級奈米科技動手做教材之發展。臺北市立教育大學自然科學系教學碩士班，未出版碩士論文，臺北市。
楊朝祥(2005)。臺灣技職教育變革與經濟發展。財團法人國家政策研究基金會教文(研)094-018號國政研究報告。
楊朝祥(2007)。升學壓力是扭曲教育本質的元凶。國政分析，教文(析)092-010號。2011年12月6日，取自：http://www.npf.org.tw/post/3/1642
經濟部(2008)。奈米科技及應用之產業分析與投資機會。臺北市：經濟部。
葉玉珠(2000)。創造力發展的生態系統模式及其應用於科技與資訊領域之內涵分析。教育心理學報，32(1)，95-121。
葉玉珠(2005)。影響國小學童科技創意發展的因素之量表發展。師大學報：科學教育類，50(2)，29-54。
葉玉珠(2006)。創造力教學。臺北市：心理。
葉玉珠、吳靜吉、鄭英耀(2000)。影響科技與資訊產業人員創意發展的因素量表之發展。師大學報：科學教育類，45(2)，39-63。
葉安義(2004)。奈米食品與科技。科學發展月刊，384，44-49。
葉安義(2007)。奈米科技與食品。科學發展月刊，418，42-46。
董奇 (1995)。兒童創造力發展與心理。臺北市：五南。
董冠妤(2011)。以問題導向學習教學法進行國小奈米科技教學之研究。國立臺中教育大學科學應用與推廣學系科學教育碩士班，未出版碩士論文，臺中市。
詹志禹(2005)。人類的創造力從何而來。科學人，45，39-41。
詹秀美(2005)。國小資優班創造思考教學實施現況研究。臺中師院學報，19(1)，47-72。
廖湘瑄(2008)。偏遠地區國小、中高年級學生奈米科技學習成效之研究-以臺中縣平地及南投縣山區為例。國立臺中教育大學科學應用與推廣學系科學教育碩士班，未出版碩士論文，臺中市。
廖遠光(1999)。教學科技的發展對學習環境的影響。教學科技與媒體，44，1-2。
潘淑琦(2006)。資訊融入「自然與生活科技」領域之行動研究─以探究教學活動設計為例。生活科技教育月刊，39(7)，87-107。
蔡元福、吳佳瑾、胡焯淳(2004)。奈米科技融入自然與生活科技領域教學之初探。科學教育研究與發展季刊，35，39-51。
蔡明容(2005)。探討奈米科技融入國小五年級自然與生活科技領域教學之研究。臺北市立師範學院科學教育研究所，未出版碩士論文，臺北市。
鄭中平(2003)。非隨機遺漏之結構方程模型估計—潛在變項選擇模型與組型混合模型。國立臺灣大學心理學研究所博士論文，未出版，臺北市。
鄭中平、翁麗禎(2004)。潛在變項組型混合模型之結構方程模型估計：隨機EM算則。中華心理學刊，46(4)，283-292。
鄭昭明、陳億貞(2006)。普通心理學。臺北市：雙葉書廊。
機械群科中心(2009)。2009萬能科技大學奈米材料應用論壇。機械群科中心電子報，33。2012年1月22日，取自：http://mgc.hsivhs.ntpc.edu.tw/index.php/the-news/59-epaper33

貳、英文部分
Adams-Byers, J., Whitsell, S. S., &; Moon, S. M. (2004). Gifted students' perceptions of the academic and social/emotional effects of homogenous and heterogeneous grouping. Gifted Child Quartely, 48, 7-20.
Adams-Byers, J., Whitsell, S. S., &; Moon, S. M. (2004). Gifted students' perceptions of the academic and social/emotional effects of homogeneous and heterogeneous grouping. Gifted Child Quarterly, 48(1), 7-20.
Ahire, S. L., Golhar, D. Y., &; Waller, M. A. (1996). Development and validation of TQM implementation constructs. Decision Sciences, 27(1), 23-56.
Ahire, S. L., Golhar, D. Y., &; Waller, M. A. (1996). Development and validation of TQM implementationconstructs. Decision Sciences, 27(1), 23-56.
Albert, R. S. &; Runco, M. A. (1986). The achievement of eminence: A model of exceptionally gifted boys and their families. In R. J. Sternberg, &; J. E. Davidson (Eds.), Conceptions of giftedness (pp. 332-357). New York, NY: Cambridge University Press.
Albert, R. S. (1991). People, processes, and developmental paths to eminence: A developmentalinteractional model. In R. M. Milgram (Ed.), Counseling gifted and talented children (pp. 75-93). Norwood, NJ: Ablex.
Amabile, T. M. (1983). The Social Psychology of Creativity. New York, NY: Springer-Verlag.
Amabile, T. M. (1985). Motivation and creativity: Effects of motivational orientation on creative writers. Journal of Personality and Social Psychology, 48, 393-399.
Amabile, T. M. (1988). A model of creativity and innovation in organizations. Research in Organizational Behavior, 10, 123-167.
Ames, C. (1992). Classrooms: Goals, structures, and student motivation. Journal of Educational Psychology, 84, 261–271.
Ames, C., &; Archer, J. (1988). Achievement goals in the classroom: Student learning strategies and motivation processes, Journal of Educational Psychology, 79, 409–414.
Anderson, J. C., &; Gerbing, D. W. (1988). Structural equation modeling in practice: A review and recommended two-step approach. Psychological Bulletin, 103, 411-423.
Averill, J. R. (2004). A Tale of Two Snarks: Emotional Intelligence and Emotional Creativity Compared. Psychological Inquiry, 15, 228-233.
Bagozzi, R., &; Yi, Y. (1988) . On the evaluation of structural equation models. Journal of the academy of marketing science, 16(1), 74-94.
Bagozzi, R., &; Yi, Y. (1988). On the evaluation of structural equation models. Academic of Marketing Science, 16, 76-94.
Bandura, A. (1997). Self-Efficacy: The exercise of control. NK: Freeman.
Bandura, A. (1997). Self-Efficacy: The exercise of control. NK: Freeman.
Batey, M., Chamorro-Premuzic, T., &; Furnham, A. (2009). Intelligence and personality as predictors of divergent thinking: The role of general, fluid and crystallised intelligence. Thinking Skills and Creativity, 4(1), 60-69.
Beghetto, R. A. (2005). Does assessment kill student creativity? The Educational Forum, 69, 254-263.
Beghetto, R. A. (2006). Creative self-efficacy: correlates in middle and secondary students. Creativity Research Journal, 18, 447-457.
Beghetto, R. A., &; Plucker, J. (2006). The relationship among schooling, learning, and creativity: "All roads lead tocreativity" or "You can't get there from here"? In J. C. Kaufman, &; J. Baer (Eds.), Creativity and reason incognitive development (pp. 316-332). New York, NY: Cambridge University Press.
Benet-Martinez, V., &; John, O. P. (1998). Los Cinco Grandes across cultures and ethnic groups: Multi-trait multi-method analyses of the Big Five in Spanish and English. Journal of Personality and Social Psychology, 75, 729-750.
Ben-Peretz, M. (1975). The concept of curriculum potential. Informal Section-Curriculum Theory Network, 5, 151-159.
Bentler, P. M. (1983). Confirmatory factor analysis via non-iterative estimation: A fast, inexpensive method. Journal of Marketing Research, 19, 417-424.
Bentler, P. M. (1986). Structural Modeling and Psychometrika: An Historical Perspective on Growth and Achievement. Psychometrika, 51, 35-51.
Bentler, P. M. (1988). Theory and implementation of EQS: A structural equations program. Newbery Park, CA: Sage.
Bentler, P. M. (1995). Encino, EQS Structural Equation Modeling Program Manual. CA: Multivariate Software.
Bentler, P. M. (2001). EQS 6 structural equations program manual. Encino, CA: Multivariate Software.
Bentler, P. M., &; Bonett, D. G. (1980). Significance tests and goodness-of-fit in the analysis of covariance structures. Psychological Bulletin, 88, 588-606.
Binnewies, C., Ohly, S., &; Niessen, C. (2008), Age and creativity at work: The interplay between job resource, age and idea creativity, Journal of Managerial Psychology, 23(4), 438-457.
Bloom, B. S. (1985). Developing talent in young people. New York, NY: Ballantine.
Boden, M. A. (1998). Creativity and artificial intelligence. Artificial Intelligence, 103, 347-356.
Boden, M. A. (2004). The creative mind: Myths and mechanisms (2nd Ed.). London, UK: Routledge.
Bogozzi, R., Youjae, Y., &; Lynn, W. P. (1991). Assessing construct validity in organizational research. Administrative Science Quarterly, 36, 421-458.
Bollen, K. A. (1989). Structural equations with latent variables. New York, NY: Wiley.
Boruch, R. F., &; Gomez, H. (1977). Sensitivity, bias, and theory in impact evaluations. Professional Psychology, 8, 411-434.
Browne, M. W., &; Cudeck, R. (1989). Single sample cross-validation indices for covariance structures. Multivariate Behavioral Research, 24, 445-455.
Bruner, J. (1984). Vygotsky's zone of proximal development: The hidden agenda. New Directions for Child and Adolescent Development, 23, 93-97.
Bryk, A.S., &; Weisberg, H.I. (1977). Use of the non-equivalent control group design when subjects are growing. Psychological Bulletin, 84, 950–962.
Burch, G. St. J., Hemsley, D. R., Pavelis, C., &; Corr, P. J. (2006). Personality, creativity and latent inhibition. European Journal of Personality, 20(2), 107-122.
Byrne, B. M. (2009). Structural equation modeling with AMOS: Basic concepts, applications, and programming (2nd Ed.). New York, NY: Taylor &; Francis Group.
Campbell, D. T., &; Fiske, D. W. (1959). Convergent and discriminant validation by multitrait-multimethod matrix. Psychological Bulletin, 56, 81-105.
Chan, D. W. (2005). Self-Perceived Creativity, Family Hardiness, And Emotional Intelligence Of Chinese Gifted Students In Hong Kong. Journal of Secondary Gifted Education, 16(2-3), 47-56.
Chen, C. J., Shih, H. A., &; Yeh, Y. C. (2011). Individual initiative, skill variety, and creativity: the moderating role of knowledge specificity and creative resources. The International Journal of Human Resource Management, 22, 3447-3416.
Choi, J. N. (2004). Individual and contextual predictors of creative performance: The mediating role of psychological processes. Creativity Research Journal, 16, 187–199.
Clark, C. (1996). Working with able learners in regular classroom. Gifted and Talented International, 11, 34-38.
Clickenbeard, P. R. (1991). Unfair expectations: A pilot study of middle school students’ comparisons of gifted and regular classes. Journal for the Education of the Gifted, 15, 56–63.
Cohen, J. (1969). Statistical Power Analysis for the Behavioral Sciences. New York, NY: Academic Press.
Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd Ed.). Hillsdale, NJ: Erlbaum.
Cohen, J. (1992). A power primer. Psychological Bulletin, 112(1), 155-159.
Coleman, J. S. (1996). Coleman's Contributions to Education. In J. Clark (Ed.). London, UK: Falmer Press .
Collins, M. A., &; Amabile, T. M. (1999). Motivation and creativity. In R. J. Sternberg (Ed.), Handbook of human creativity (pp. 297–312). New York: Cambridge University Press.
Collins, S. M. (2002). Emerging methods for the physiological assessment of occupational stress. Work: A Journal of Prevention, Assessment and Rehabilitation, 17, 209-219.
Cook, T. D., Habib, F. N., Phillips, M., Settersetn, R. A., Shagle, S. C., &; Degirmencioglu, S. M. (1999). Comer's school development program in Prince George's County, Maryland: A theory-based evaluation. American Educational Research Journal, 36, 543-597.
Cote, J. A., &; Buckley, M. R. (1987). Estimating Trait, Method, and Error Variance: Generalizing Across 70 Construct Validation Studies. Journal of Marketing Research, 24, 315-318.
Cramond, B., &; Martin, C. E. (1987). Inservice and preservice teachers' attitudes toward the academically brilliant. Gifted Child Quarterly, 31, 15–19.
Cramond, B., &; Martin, C. E. (1987). Inservice and preservice teachers' attitudestoward the academically brilliant. Gifted Child Quarterly, 31, 15-19.
Cropley, A. J. (1967). Creativity. London, UK: Longmans, Green.
Crutchfield, R. (1962). Conformity and creative thinking. In H. Gruber, G. Terrell, &; M. Wertheimer (Eds.), Contemporary approaches to vreative thinking (pp. 120-140). New York, NY: Atherton.
Csikszentmihalyi, M. (1996). Creativity: Flow and the psychology of discovery and invention. New York, NY: Harper Collins Publishers.
Csikszentmihalyi, M. (1999). Implications of asystems perspective for the study of creativity. In R.J. Sternberg (Ed.), The handbook of creativity (pp.313-335). New York, NY: Cambridge University Press.
Csikszentmihalyi, M. (2006). A systems perspective on creativity. In J. Henry (3rd Eds.), Creative Management and Development. London, UK: Sage.
Csikszentmihalyi, M., &; Wolfe, R. (2000). New conceptions and research approaches to creativity: Implications of systems perspective for creativity in education. In K. A. Heller, F. J. Monks, R. J. Sternberg, &; R. F. Subotnik (Eds.), International handbook of giftedness and talent (2nd Ed). (pp.81-93). New York, NY: Pergamon.
Daniels, H. (2005). An introduction to Vygotsky (2nd Ed.). New York, NY: Routledge.
Davis, G. A. (1986). Creativity is forever (2nd Ed.). Dubuque, Iowa: Kendall/Hunt.
Dawkins, R. (1976). The Selfish Gene. Oxford, UK: Oxford University Press.
Deci, E. L., Hodges, R., Pierson, L., &; Tomassone, J. (1992). Autonomy and competence as motivational factors in students with learning disabilities and emotional handicaps. Journal of Learning Disabilities, 25, 457-471.
Dellas, M., &; Gaier, E. L. (1970). Identification of creativity: The individual. Psychological Bulletin, 73, 55-73.
Dempster, A. P., Laird, N. M., &; Rubin, D. B. (1977). Maximum Likelihood from incomplete data via the EM algorithm. Journal of the Royal Statistical Society, Series B, 39, 1-38.
Diamantopoulos, A., &; Siguaw, A. A. (2000). Introducing LISREL. New Delhi: Sage.
Dionne, S. D., Yammarino, F. J., Atwater, L. E. &; James, L. R. (2002). Neutralizing Substitutes for Leadership Theory: Leadership Effects and Common-Source Bias. Journal of Applied Psychology, 87, 453-464.
Dudek,S. Z., Strobel, M. G., &; Runco, M.A. (1993). Cumulative and proximal influences on the social environment and children's creativity potential. Journal of Genetic Psychology, 154, 487-499.
Dwyer, F. M. (1975). On visualized instruction effect of students' entering behavior. The Journal of Experimental Education, 43(3), 78-83.
Edgeworth, F. Y. (1881). Mathematical psychics: an essay on the application of mathematics to the moral sciences. London: Kegan Paul.
Enders, C. K., &; Bandalos, D. L. (2001). The relative performance of full information maximum likelihood estimation for missing data in structural equation models. Structural Equation Modeling, 8, 430-457.
Ericsson, K. A. (2006). The influence of experience and deliberate practice on the development of superior expert performance. In K. A. Ericsson, N. Charness, P. Feltovich, &; R. R. Hoffman (Eds.), Cambridge handbook of expertise and expert performance (pp. 685-706). Cambridge, UK: Cambridge University Press.
Ernst, J. V. (2009). Nanotechnology Education: Contemporary Content and Approaches. The Journal of Technology Studies, 35(1), 3-8.
Farh, J. L., Cannella, Jr. A. A., &; Lee, C. (2006). Approaches to scale development in Chinese management research. Management and Organization Review, 2, 301-318.
Farivar, S. H. (1985). Developing a cooperative learning program in an elementary classroom: Cooperative study of innovative and tradition middle teaching and learning strategies. LA: University California.
Feist, G. (2011). The function of personality in creativity. In J. Kaufman, &; R. J. Sternberg (Eds.), Cambridge Handbook of Creativity (pp. 113-130). Cambridge, UK: CambridgeUniversity Press.
Feist, G. J. (1993). A structural model of scientific eminence. Psychological Science, 4, 366-371.
Feist, G. J. (1999). The influence of personality on artistic and scientific creativity. In R. J. Sternberg (Ed.), Handbook of Creativity (pp. 275-295). New York, NY: Free Press.
Feist, G. J., &; Barron, F. (1996). Longitudinal study of 1950 graduate students. Unpublished raw data.
Feldhusen, J. F. (1995). Creativity: A knowledge base, metacognitive skill, and personality factors. Journal of Creative Behavior, 29(4), 255-268.
Feldhusen, J. F., &; Treffinger, D. J. (1980). Creative thinking and problem solving in gifted education. Dubuque, IA: Kendall/Hunt.
Feldman, D. H. (1999). The development of creativity. In R. J. Sternberg (Ed.), Handbook of creativity. New York, NY: Cambridge University Press.
Finkbeiner, C. (1979). Estimation for the multiple factor model when data are missing. Psychometrika, 44, 409-420.
Fleith, D. S. (2000). Teacher and student perceptions of creativity in the classroom environment. Roeper Review, 22(3), 148-153.
Fornell, C., &; Larcker, D. (1981). Evaluating structural equation models with unobservable variables and measurement error. Journal of marketing research, 18, 39-50.
Fornell, C., &; Larker, D. F. (1981). Evaluating Structural Equation Models with Unobservable Variables and Measurement Error. Journal of Marketing Research, 18, 39-50.
Freeman, C., Sharp, M., &; Walker, W. (1993). Technology and the future of Europe: Global competition and the environment in the 1990s. London, UK: Thomson Learning.
Freud, S. (1959). The relation of the poet to day-dreaming. In Collected papers (Vol. 5, pp. 157-158). London, UK: Hogarth.
Gardner, H. (1993). Creating minds: An anatomy of creativity seen through the lives of Freud, Einstein, Picasso, Stravinsky, Eliot, Graham, and Ghandi. New York, NY: Basic books.
Gardner, H. (1993). Creating minds: An anatomy of creativity seen through the lives of Freud, Einstein,Picasso, Stravinsky, Eliot, Graham, and Ghandi. New York, NY: Basic books.
George, D., &; Mallery, P. (2003). SPSS for Windows step by step: A simple guide and reference. 11.0 update (4th Ed.). MA: Allyn &; Bacon.
Geringer, J. (2003). Stories from the Heart: For Parents Particularly. Childhood Education, 79(3), 175-176.
Gist, M. E., &; Mitchell, T. R. (1992). Self-efficacy: A theoretical analysis of its determinants and malleability. Academy of Management Review, 17, 183-211.
Gold, M. S., &; Bentler, P. M. (2000). Treatments of missing data: A Monte Carlo comparison of RBHDI, iterative stochastic regression imputation, and expectation-maximization. Structural Equation Modeling, 7, 319-355.
Goleman, D. (1995). Emotional intelligence. NY: Bantam Books.
Gong, Y., Huang, J. C., &; Farh, J. L. (2009). Employee Learning Orientation, Transformational Leadership, and Employee Creativity: The Mediating Role of Employee Creative Self-Efficacy. Academy of Management Journal, 52, 765-778.
Gove, P. B. (1973). Webster’s Third New International Dictionary. White Plains. New York, NY: Longman.
Grant, A. M., &; Berry, J. W. (2011). The necessity of others is the motherof invention: Intrinsic and prosocial motivations,perspective taking, and creativity. Academy of Management Journal, 54(1), 73-96.
Grieves, J. (2003). Strategic human resource development. North Park, UK: Sage。
Gross, M. U. M., (1989). The pursuit of excellence or the search for intimacy? The forced-choice dilemma of gifted youth. Roeper Review, 11, 189–194.
Gruber, H. E. (1981). Darwin on man: A psychological study of scientific creativity. Chicago: University of Chicago Press.
Gruber, H. E., &; Wallace, D. B. (1999). The case study method and evolving system approach for understanding unique creative people at work. In R. J. Sternberg (Ed.), Handbook of Creativity (pp. 3-16). London: Cambridge University Press.
Guastello, S., &; Shissler, J. (1994). A two-factor taxonomy of creative behavior. Journal of Creative Behavior, 28, 211-221.
Guilford, J.P. (1967). The Nature of Human Intelligence. New York, NY: McGraw-Hill Education.
Guilford, J.P. (1977). Way beyond the IQ. New York, NY: Creative Education Foundation.
Hair, J. F., Black, W. C., Babin, B. J., Anderson, R. E., &; Tatham, R. L. (2006). Multivariate data analysis (6th Ed.). NJ: Prentice Hall.
Hair, J. F., Black, W. C., Babin, B. J., Anderson, R. E., &; Tatham, R. L. (2006). Multivariate data analysis (6th Ed.). NJ: Prentice-Hall.
Hair, J., Anderson, R., Tatham, R., &; Black, W. (2006). Multivariate Data Analysis. NJ: Pearson/Prentice Hall, Inc.
Hale, C., &; Windecker, E. (1992). Influences of Parent-child Interaction During Reading on preschoolers’ Cognitive Abilities. East Lansing, MI: National Center for Research on Teacher Learning. (ERIC Document Production Service No. ED360083).
Halford, G. S. &; Wilson, W. H. (2002). Creativity, relational knowledge, and capacity: Why are humans so creative? In Dartnall, T. (Ed.), Creativity, cognition, and knowledge. United Kingdom: Praeger.
Harackiewicz, J. M., Barron, K. E., Pintrich, P. R., Elliot, A. J., &; Thrash, T. M. (2002). Revision of achievement goal theory: Necessary and illuminating. Journal of Educational Psychology, 94, 638–645.
Hatcher, L. (1994). A step-by-step approach to using the SAS system for factor analysis and structural equation modeling. Cary, NC: SAS Institute.
Hayes, J. R. (1989). Cognitive precesses in creativity. In J. A. Glover, R. R. Ronning, &; C. R. Reynolds, Handbook of Creativity (pp. 135-145). New York, NY: Plenum.
He, H. (2011). Self-Adaptive Systems for Machine Intelligence. Hoboken, NJ: John Wiley &; Sons.
Hedeker, D., &; Gibbons, R. D. (1997). Application of random-effect pattern-mixture models for missing data in longitudinal studies. Psychological Methods, 2, 64-78.
Hedges, L. V., &; Olkin, I. (1985). Statistical methods for meta-analysis. San Diego, CA: Academic Press.
Helmreich, R. L., Spence, J. T., &; Pred, R. S. (1988). Making it without losing it: Type A, achievement motivation and scientific attainment revisited. Personality and Social Psychology Bulletin, 14, 495-504.
Helson, R., &; Crutchfield, R. S. (1970). Mathematicians: The creative researcher and the average Ph. D. Journal of Consulting and Clinical Psychology, 34, 250-257.
Hill, J. L. (2001). Accommodating missing data in mixture models for classification by opinion-changing behavior. Journal of Educational and Behavioral Statistics, 26, 233-268.
Hoelter, J. W. (1983). The analysis of covariance structures: Goodness-of-fit indices. Sociological Methods and Research, 11, 325-344.
Hoover, K. H. (1982). The professional teacher's handbook (3th Ed.). Boston: Allen &; Bacon.
Houtz, J. C. (1990). Environments that support creative thinking. In J. H. Hedley, &; A. Barratta (Eds.), Cognition, curriculum and literacy (pp. 61-76). NJ: Ablex, Norwood.
Hubbard, S. M., &; Hayashi, S. W. (2003). Use of diffusion of innovations theory to drive a federal agency’s program evaluation. Evaluation and Program Planning, 26, 49-56.
Huitema, B.(1980). The analysis of covariance and alternatives. New York, NY: Wiley.
Isen, A.M., Daubman, K. A., &; Nowicki, G. P. (1987). Positive affect facilitates creative problem solving. Journal of Personality and Social Psychology, 52, 1122–1131.
Jamieson, S. (2004). Likert scales: how to use them. Medical Education, 38, 1212-1218.
Jamisons, K. R. (1993). Touched with fire: Manic-depressive illnessand the artistic temperament. New York, NY: Free Press.
Jamshidian, M. &; Bentler, P. M. (1999). ML estimation of mean and covariance structures with missing data using complete data routines. Journal of Educational and Behavioral Statistics, 24, 21-41.
Jang, S. J. (2009). Exploration of secondary students' creativity by integrating web-based technology into an innovative science curriculum. Computers &; Education, 52(1), 247-255.
Jencks, C. (1972). Ineguality: A reasseaament of the effect of family and schooling in America. NY: Harper &; Row.
John, O. P., Donahue, E. M., &; Kentle, R. L. (1991). The Big Five Inventory (Versions 4a and 54). Berkeley, CA: University of California, Berkeley, Institute of Personality and Social Research.
John, O. P., Naumann, L. P., &; Soto, C. J. (2008). Paradigm shift to the integrative Big Five trait taxonomy: History, measurement, and conceptual issues. In O. P. John, R. W. Robins, &; L. A. Pervin (Eds.), Handbook of personality: Theory and research (pp. 114-158). NY: Guilford Press.
Jöreskog, K. G. (1973). A General Method for Estimating a Linear Structural Equation System. In A. S. Goldberger and O. D. Duncan (Eds.), Structural Equation Models in the Social Sciences. New York, NY: Academic Press.
Jöreskog, K. G., &; Sörbom, D. (1993). LISREL-8 user's reference guide. Mooresville, IN: Scientific Software Inc.
Kaiser, H. F. (1960). The application of electronic computers to factor analysis. Educational and Psychological Measurement, 20, 141-151.
Kaiser, H. F. (1974). Little Jiffy, Mark IV. Educational and Psychological Measurement, 34, 111-117.
Kaplan, A., Middleton, M. J., Urdan, T., &; Midgley, C. (2002). Achievement goals and goal structures. In C. Midgley (Ed.), Goals, goal structures and patterns of adaptive learning (pp. 21–54). Mahwah, NJ: Lawrence Erlbaum Associates, Inc.
Kark, R., Shamir, B., &; Chen, G. (2003). The Two Faces of Transformational Leadership: Empowerment and Dependency. Journal of Applied Psychology, 88, 246-255.
Kelloway, E. K. (1996). Common practices in structural equation modeling. pp. 141-180, in C. L. Cooper &; I. Robertson (Eds). International Review of Industrial and Organizational Psychology. Chichester: John Wiley and Sons.
Kelloway, E. K. (1998). Using LISREL for structural equation modeling: A researcher’s guide. Thousand Oaks, CA: SAGE Publications.
Kelly, T. L. (1939). The selection of upper and lower groups for the validation of test items. Journal of Educational Psychology, 30, 17-24.
Kendall, M.G. (1976). Rank Correlation Methods (4th Ed.). London:　Griffin.
Kenny, D. A., Kashy, D. A., &; Cook, W. L. (2006). Analysis of dyadic data. New York, NY: Guilford.
King, L. A., Walker, L. M., &; Broyles, S. J. (1996). Creativity and the Five-Factor Model. Journal of Research in Personality, 30(2), 189-203.
Kirk, R.E. (1995). Experimental design: Procedures for the behavioral sciences (3rd Ed.). Pacific Grove, CA: Brooks/Cole.
Kline, R. B. (2005). Principles and practice of structural equation modeling. New York, NY: The Guilford Press.
Krishnaveni, R., &; Ranganath, D. (2011). Development and validation of an instrument for measuring the emotional intelligence of individuals in the work environment: In the Indian context. The International Journal of Educational and Psychological Assessment, 7(2), 94-118.
Laws, J. (2003). Self-efficacy beliefs and creative performance in adults: A phenomenological investigation. Dissertation Abstracts International, 64(1), 67A. (UMI No. AAINQ76443)
Lbrahim, G. (1995). Knowledge, attitude and practice the three pillars of excellence and wisdom: a place in the medical profession. Eastern Mediterranean Health Journal, 1(1), 8-16.
Lipsey, M. W. (1990). Design sensitivity: Statistical power for experimental research. Thousand Oaks, CA: Sage.
Locke, E. A., Frederick, E., Lee, C., &; Bobko, P. (1984). Effect of self-efficacy, goals, and task strategies on task performance. Journal of Applied Psychology, 62, 241–251.
Lubart, T. I. (1994). Creativity. In R. J. Sternberg (Ed.), Thinking and problem solving. New York, NY: Academic Press.
Lubart, T. I. (1999). Creativity Across Cultures. In R. J. Sternberg (Ed.), Handbook of Creativity (pp. 339-350). New York, NY: Cambridge University Press.
Lubke, G. H., &; Muthen, B. O. (2004). Applying Multi-group Confirmatory Factor Models for Continuous Outcomes to Likert Scale Data Complicates Meaningful Group Comparisons. Structural Equation Modeling, 11, 514-534.
Lumsden, C. (1999). Evolving creative minds: Stories and mechanisms. In R. Sternberg (Ed.), Handbook of creativity (pp.153-168). New York, NY: Cambridge University Press.
MacCallum, R. C., Browne, M. W. &; Sugawara, H. W. (1996). Power analysis and determination of sample size for covariance structure modeling. Psychological Methods, 1(1), 130-149.
MacMillan Essential Dictionary (2003). Oxford, UK: MacMillan Education.
Madjar, N., &; Ortiz-Walters, R. (2009). Trust in Supervisors and Trust in Customers: Their Independent, Relative, and Joint Effects on Employee Performance and Creativity. Human Performance, 22(2), 128-142.
Martindale, C. (1995). Creativity and connectionism. In S.M. Smith, T.B. Ward and R.A. Finke (Eds.), The creative cognition approach. Cambridge MA: MIT Press.
Martinsen, L. (2011). The Creative Personality: A Synthesis and Development of the Creative Person Profile. Creativity Research Journal, 23(3), 185-202.
Mayer, J. D., &; Salovey, P. (1997). What is emotional intelligence? In P. Salovey &; D. Sluyter (Eds.), Emotional development and emotional intelligence: Implications for educators (pp. 3-31). New York, NY: Basic Books.
Mayer, R. E. &; Sims, V. K. (1994). For whom is a picture worth a thousand words? Extensions of a dual-coding theory of multimedia learning. Journal of Educational Psychology, 86, 389-401.
Mayer, R. E. (1999). Fifty years of creativity research. In R. J. Sternberg (Ed.), Handbook of Creativity (pp. 450). New York, NY: Cambridge University Press.
McHugh, M. L., &; Hudson-Barr, D. (2003). Descriptive statistics, part II: Most commonly used descriptive statistics. Journal for Specialists in Pediatric Nursing, 8(3), 111-116.
McLachlan, G. J., &; Krishnan, T. (1997). The EM algorithm and extensions. New York, NY: John Wiley &; Sons.
McLeod, J., &; Cropley, A. (1989). Defining academic excellence. in fostering academic excellence. Oxford, NY: Pergamon Press.
Mendelson, M. I. (2007). Engineering Creativity in Teaching Nanotechnology. Proceedings of the 2007 American Society for Engineering Education Pacific Southwest Annual Conference. Retrived on December 3, 2011, from: http://www.asee.org/documents/sections/Mendelson.pdf
Michel, M., &; Dudek, S. Z. (1991). Mother-child relationship and creativity. Creativity Research Journal, 4(3), 281-286.
Midgley, C. (2002). Goals, goal structures, and patterns of adaptive learning. Mahwah, NJ: Lawrence Erlbaum Associates, Inc.
Moates, D. R. &; Schumacher, G. M. (1980). An introduction to cognitive psychology. Belmont, CA: Wadsworth.
Mulaik, S. A., James, L. R., Altine, J. V., Bennett, N., Lind, S., &; Stilwell, C. D. (1989). Evaluation of goodness-of-fit indices for structural equation models. Psychological Bulletin, 105, 430-445.
Myers, J.L., &; Well, A.D. (1995). Research design and statistical analysis. Hillsdale, NJ: Lawrence Erlbaum.
Newman, G. (1992). Teacher's resource to accompany odyssey through the ages. Toronto, Canada: McGraw-Hill Ryerson.
Nickerson, R. S. (1998). Confirmation bias: Aubiquitous phenomenon in many guises. Review of General Psychology, 2, 175-220.
Nickerson, R. S. (1999). Enhancing creativity. ln R. J. Stemberg (Ed.), Handbook of creativity (pp. 392-430). Cambridge, UK: Cambridge University Press.
Noble, E. P., Runco, M. A., &; Ozkaragoz, T. Z. (1993). Creativity in alcoholic and nonalcoholic families. Alcohol, 10, 317–322.
Nunnally, J. C. (1978). Psychometric theory (2nd Ed.). New York, NY: McGraw-Hill.
Ochse, R. (1990). Before the gates of excellence: The determinants of creative genius. Cambridge, UK: Cambridge University Press.
Osborn, A. F. (1953). Applied imagination: Principles and procedures of creative thinking. Buffalo, NY: Charles Scribner's Son's.
Paivio, A. (1971). Imagery and Verbal Processes. New York, NY: Holt, Rinehart &; Winston.
Paivio, A. (1986). Mental Representations. Oxford, NY: Oxford University Press.
Palincsar, A.S., Brown, A. L., &; Campione, J. C.(1993). First-grade dialogues for knowledgeacquisition and use. In E.A. Forman, N. Minick, &; C. A. Stone (Eds.), Contexts for learning: Sociocultural dynamics in children's development (pp. 251-270). Cambridge: CambridgeUniversity Press.
Parasuraman, A., Zeithaml, V. A., &; Malhotra, A. (2005). E-S-QUAL: A Multiple-Item Scale for Assessing Electronic Service Quality. Journal of Service Research, 7, 215-233.
Parbhu, V., Sutton, C., &; Sauser, W. (2008). Creativity and certain personality traits: Understanding the mediating effect of intrinsic motivation. Creativity Research Journal, 20(1), 53-66.
Park, G., Lubinski, D. &; Benbow, C. P. (2008). Ability Differences Among People Who Have Commensurate Degrees Matter for Scientific Creativity. Psychological Science, 19, 957-961.
Parkin, M. (2004). Tales for change: using storytelling to develop people and organizations. London: Kogan Page.
Parnes, S. J. (1967). Creative behavior workbook. New York, NY: Scribners.
Peterson, G. W., Sampson, J. P., Jr., &; Reardon, R. C. (1991). Career development and services: Acognitive approach. Pacific. Grove, CA: Brooks/Cole.
Petrides, K. V. &; Furnham, A. (2006). The role of trait emotional intelligence in a gender-specific model of organizational variables. Journal of Applied Social Psychology, 36, 552-569.
Phelan, S. G. (2001). Developing creative competence at work: The reciprocal effects of creative thinking, self-efficacy and organizational culture on creative performance. Dissertation Abstracts International, 62(2), 1059B. (UMI No. AA13003909)
Pintrich, P. R., &; Schunk, D. H. (2002). Motivation in education: Theory, research, and applications (2nd Ed.). Columbus, OH: Prentice Hall.
Plucker, J.A., &; Renzulli, J. S. (1999). Psychometric approaches to the study of creativity. In R. J. Sternberg (Ed.), Handbook of creativity. New York, NY: Cambridge University Press.
Podsakoff, P. M., &; Organ, D. W. (1986). Self-reports in organizational research: Problems and prospects. Journal of Management, 12, 531-544.
Pollt, D. F., Beck, C. T., &; Owen, S. V. (2007). Is the CVI an acceptable indicator of content validity? Appraisal and recommendations. Research in Nursing &; Health, 30, 459-467.
Prabhu, V., Sutton, C., &; Sauser, W. (2008). Creativity and Certain Personality Traits: Understanding the Mediating Effect of Intrinsic Motivation. Creativity Research Journal, 20(1), 53-66.
Raines-Eudy, R. (2000). Using structural equation modeling to test for differential reliability and validity: An empirical demonstration. Structural Equation Modeling, 7, 485-527.
Raja, U. (2010). The joint effects of personality and job scope on in-role performance, citizenship behaviors, and creativity. Human Relations, 63, 981-1005.
Rammstedt, B. &; John, O. P. (2007). Measuring personality in one minute or less: A 10-item short version of the Big Five Inventory in English and German. Journal of Research in Personality, 41, 203-212.
Renzulli, J. S., &; Reis, S. M. (1985). The schoolwide enrichment model: A comprehensive plan for educational excellence. Mansfield Center, CT: Creative Learning Press.
Rhodes, M. (1961). An analysis of creativity. Phi Delta Kappa, 42, 305-310.
Rietzschel, E. F., Nijstad, A., &; Stroebe, W. (2007). Relative accessibility of domain knowledge and creativity: The effects of knowledge activation on the quantity and originality of generated ideas. Journal of Experimental Social Psychology, 43, 933-946.
Ripple, R. E. (1989). Ordinary creativity. Contemporary Educational Psychology, 14, 189-202.
Robinson, J. R. (2008). Webster's Dictionary Definitions of Creativity. Online Journal of Workforce Education and Development, 3(2), October 21, 2011, Retrived from http://wed.siu.edu/Journal/VolIIInum2/Article_1.pdf.
Rogers, C. (1961). On becoming a person. Boston: Houghton Mifflin.
Rogers, E. M. (2003). Diffusion of Innovations (5th Ed.). New York, NY: Free Press.
Runco, M. A. (1996). Personal creativity: Definition and developmental issues. New Directions for Child Development, 72, 3-30.
Runco, M. A. (2003). Creativity, cognition, and their educational implications. In J. C. Houtz (Ed.), The educational psychology of creativity (pp. 25-56). Cresskill, NJ: Hampton.
Runco, M. A. (2007). Creativity: Theories and themes. New York, NY: Elsevier Inc.
Runco, M. A., &; Albert, R. S. (1985). The reliability and validity of ideational originality in the divergent thinking of academically gifted and nongifted children. Educational and Psychological Measurement 45, 483-501.
Runco, R. A., Nemiro, J., &; Walberg, H. J. (1998). Personal explicit theories of creativity. The Journal of Creative Behavior, 32(1), 1-17.
Rushton, J. P., Murray, H. G., &; Paunonen, S. V. (1987). Personality characterisitcs associate with high research productivity. In D. Jackson &; J. P. Rushton (Eds.), Scientific excellence (pp.129-148). Beverly Hills, CA: Sage.
Salovey, P., &; Mayer, J. D. (1990). Emotional intelligence. Imagination, Cognition, and Personality, 9, 185-211.
Schack, G. D. (1989). Self-efficacy as a mediator in the creative productivity of gifted children. Journal of the Education of the Gifted, 12, 231–249.
Schriesheim, C. A. (1979). The similarity of individual directed and group directed leader behavior descriptions. Academy of Management Journal, 22, 345-355.
Schröder, S., Ziebarth, S., Malzahn, N., &; Hoppe, H. U. (2009). Self-profiling of Competences for the Digital Media Industry: An Exploratory Study. Computer Science, 5794, 365-378.
Schunk, D. H., &; Zimmerman, B. J. (1998). Self-Regulated Learning from Teaching to Self-Reflective Practice. New York, NY: The Guilford Press.
Shabania, R., Massia, L., Zhaia, L., Seala, S., &; Cho, H. J. (2011). Classroom modules for nanotechnology undergraduate education: Development, implementation and evaluation. European Journal of Engineering Education, 36(2), 199-210.
Shadish, W. R., Cook, T. D., &; Campbell, D. T. (2002). Experimental and quasi-experimental designs for generalized causal inference. Boston, MH: MHoughton Mifflin.
Shadish, W. R., Cook, T. D., &; Campbell, D. T. (2002). Experimental and quasi-experimental design for generalized causal inference. Boston, MA: Houghton Mifflin Company.
Sheldon, K., &; Elliot, A. (1999). Goal striving, need satisfaction, and longitudinal well-being: The self-concordance model. Journal of Personality and Social Psychology, 76, 482-497.
Simmons, R., &; Thompson, R. (2008). Creativity and Performativity: The case of further education. British Educational Research Journal, 34, 601-618.
Slappendel, C. (1996). Perspectives on Innovations in Organization. Organization Studies, 17(1), 107-129.
Soler, J. M.(2007). A rational indicator of scientific creativity. Journal of Infometrics, 1(2), 123-130.
Spencer, J. A., &; Jordan, R. K. (1993). Learner centered approaches in medical education. British Medical Journal, 318, 1280-1283.
Spendlove, D. (2008). Creativity in Education: A Review. Design and Technology Education, 10(2), 9-18.
Spiegel, M. R. (1992). Theory and Problems of Probability and Statistics (2nd Ed.). New York, NY: McGraw-Hill.
Starko, A. J. (2009). Creativity in the classroom: Schools of curious delight (4th Ed.). New York, NY: Routledge.
Sternberg, R. J. (1988). A three-facet model of creativity. In R. J. Sternberg (Ed.), The nature of creativity (pp. 125-147). New York, NY: Cambridge University Press.
Sternberg, R. J. (1999). Handbook of creativity. Cambridge, UK: Cambridge University Press.
Sternberg, R. J. (2003). Creative thinking in the classroom. Scandinavian Journal of educational Research, 47, 325-338.
Sternberg, R. J. (2006). The Nature of Creativity. Creativity Research Journal, 18(1), 87-98.
Sternberg, R. J. (2007), Creativity as a habit, In A. G. Tan (Ed.), Creativity: A handbook for teachers (pp. 3-25). Singapore: World Scientific.
Sternberg, R. J., &; Lubart, T. I. (1995). Defying the crowd: Cultivating creativity in a culture of conformity. New York, NY: Free Press.
Sternberg, R. J., &; Lubart, T. I. (1996). Investing in creativity. American Psychologist, 51(7), 677-688.
Sternberg, R. J., &; Lubart, T. I. (2004). The concept of creativity: prospects and paradigms. In R. J. Sternberg (Ed.), Handbook of creativity (pp. 3-15). New York, NY: Cambridge University Press.
Sternberg, R. J., &; Willams, W. M. (1996). How to develop student creativity. Alexandria, Virginia: Association for Supervision and Curriculum Development.
Sternberg, R. J., (2007). Hand Book of Creativity II Practice. Taipei: Wunan.
Stricker, D. R. (2008). Perceptions of creativity in art, music and technology education. The Faculty of the Graduate School of the University of Minnesota, Unpublished Doctroal dissertation, Minnesota, USA.
Suhr, D. (2006). Exploratory or confirmatory factor analysis? Proceedings of the Thirty-first Annual SAS Conference (SUGI 31), Paper 200-31.
Sung, S. Y., &; Choi, J. N. (2009). Do BIG 5 Personality Factors Affect IndividualCreativity? The Moderating Role of Extrinsic Motivation. Social Behavior andPersonality, 37, 941-956.
Tabachnick, B. G., &; Fidell, L. S. (2007). Using multivariate statistics (5th Ed.). New York, NY: Allyn &; Bacon.
Taylor, C. W. (1988). Various approaches to and definitions of creativity. In R. J. Sternberg (Ed.), The nature of creativity: Contemporary psychological perspectives (pp. 99–121). Cambridge, England: Cambridge University Press.
Taylor, S., &; Todd, P. A. (1995). Understanding information technology usage: a test of competing models. Information Systems Research, 6(2), 144-176.
Thomas, T., &; Tommy, O. (1997). Stories on spot: introducing students to improptu storytelling. Childhood Education, 73(3), 154-155.
Tierney, P., &; Farmer, S. M. (2002). Creative Self-Efficacy: Its Potential Antecedents and Relationship to Creative Performance. Academy of Management Journal, 45, 1137-1148.
Tierney, P., &; Farmer, S. M. (2004). The Pygmalion process and employee creativity. Journal of Management, 30, 413-432.
Tighe, E., Picariello, M. L., &; Amabile, T. M. (2003). Environmental influences on motivation and creativity inthe classroom. In J. Houtz (Ed.), The educational psychology of creativity (pp. 199–222). Cresskill, NJ: Hampton Press.
Tighe, E., Picariello, M. L.,&;Amabile, T. M. (2003). Environmental influences on motivation and creativity in the classroom. In J. C. Houtz (Ed.), The educational psychology of creativity (pp. 199-222). Cresskill, NJ: Hampton.
Torrance, E. P. (1962). Guiding creative talent. Englewood Cliffs, NJ: Prentice Hall.
Torrance, E. P. (1963). Education and the creative potential. Minneapolis: University of Minnesota Press.
Torrance, E. P. (1965). Rewarding Creative Behavior; Experiments in Classroom Creativity. Englewood Cliffs, NJ: Prentice-Hall.
Torrance, E. P. (1970). Encouraging creativity in the classroom. Dubuque, Iowa: Wm. C. Brown Company Publishers.
Torrance, E. P. (1987). Teaching for creativity. In S. G. Isaksen (Ed.), Frontiers of creativity research (pp. 190-215). Buffalo, NY: Bearly Ltd.
Torrance, E. P. (1988). The nature of creativity as manifest in its testing. In R. J. Sternberg (Ed.), The nature of creativity (pp. 43-75). Cambridge, UK: Cambridge University Press.
Treffinger D. J., Isaksen, S.G., &; Dorval, K. B. (1994). Creative Problem Solving: An overview. In M. A. Runco (Ed.), Problem finding, problem solving, and creativity. NJ: Ablex.
Trochim, W. M. K., &; Donnelly, J. P. (2006). The Research Methods Knowledge Base (3rd Ed.). Cincinnati: Thomson.
Urdan, T. (1997). Achievement goal theory: Past results, future directions. In P. R. Pintrich &; M. L. Maehr (Eds.), Advances in motivation and achievement (Vol. 10, pp. 99–142). Greenwich, CT: JAI Press.
Urdan, T., Ryan, A. M., Anderman, E. M., &; Gheen, M. H. (2002). Goals, goal structures, and avoidance behaviors. In C. Midgley (Ed.), Goals, goal structures, and patterns of adaptive learning (pp. 55-84). Mahwah, NJ: Lawrence Erlbaum Associates.
Wallach, M. A., &; Kogan, N. (1965). Modes of thinking in young children. New York, NY: Holt, Rinehart, &; Winston.
Wegerif, R. (2005). Reason and Creativity in Classroom Dialogues. Language and Education, 19, 223-237.
Wehner, L., Csikzentmihalyi, M., &; Magyari-Beck, I. (1991). Current approaches used in studying creativity: An exporatory investigation. Creativity Research Journal, 4, 261-271.
Weisberg, R. W. (1999). Creativity and knowledge: A challenge to theories. In R. J. Sternberg, Handbook of Creativity (pp.227-250). New York, NY: Free Press.
Wheaton, B. B., Muthen, B., Alwin, D. F., &; Summers, G. F. (1977). Assessing reliability and stability in panel models. In D. R. Heiss, (Ed), Sociological Methodology, San Francisco, CA: Jossey-Bass.
Wiley, D. E. (1973). The Identification Problem for Structural Equation Models with Unmeasured Variables. In A. S. Goldberger and O. D. Duncan (Eds.), Structural Equation Models in the Social Sciences. New York, NY: Academic Press.
Williams, F. E. (1986). The cognitive-affective interaction model for enriching gifted programs. In J. S. Renzulli (Ed.), Systems and models for developing programs for the gifted and talented. Mansfield Center, CT: Creative Learning Center.
Williams, L. J., &; Brown, B. K. (1994). Method Variance in Organizational Behavior and Human Resources Research: Effects on Correlations, Path Coefficients, and Hypothesis Testing. Organizational Behavior and Human Decision Processes, 57, 185-209.
Wilson, G. D., &; Jackson, C. (1994). The personality of physicists. Personality and Individual Differences, 16, 187-189.
Wolters, C. A. (2004). Advancing achievement goal theory: Using goal structures and goal orientations to predict students' motivation, cognition, and achievement. Journal of Educational Psychology, 96, 236–250.
Wood, Bruner, &; Ross,(1976). The role of tutoring in problem solving. Journal of ChildPsychology and Psychiatry, 7, 89-100.
Woodman, R. W., Sawyer, J. E., &; Griffin, R. W. (1993). Toward a theory of organizational creativity. Academy of Management Review, 18, 293-21.
Wynd, C. A., Schmidt, B., &; Schadefer, M. A. (2003). Two quantitative approaches for estimating content validity. Western Journal of Nursing Research, 25, 508-518.
Yerrick, R. (2000). Lower track science students' argumentation and open inquiryinstruction. Journal of Research in Science Teaching, 37, 807-838.
Zajonc, R. B., &; Markus, G. B. (1975). Birth order and intellectual development. Psychological Review, 82, 74-88.
Zimmerman, B. J. (1986). Development of self-regulated learning: Which are the key sub-processes? Contemporary Educational Psychology, 11, 307-313.
Zimmerman, B. J. (1989). A social cognitive view of self-regulated academic achievement: An overview. Journal of Educational Psychology, 81, 329-339.
Zimmerman, B. J. (1995). Self-regulation involves more than meta-cognition: A social cognitive perspective. Educational Psychologist, 30, 217-221.
Zimmerman, B. J. (1998). Academic studying and the development of personal skill: A self-regulatory perspective. Educational Psychologist, 33, 73-86.
Zimmerman, B. J. (2000). Attaining self-regulation: A social cognitive perspective. In M. Boekaerts, P. R. Pintrich, &; M. Zeidner (Eds.), Handbook of Self-regulation. (pp. 20-41), San Diego, CA: Academic Press.
Zimmerman, B. J. (2001). Theories of self-regulated learning and academic achievement: An overview and analysis. In B. J. Zimmerman &; D. H. Schunk (Eds.), Self-regulated Learning and Academic Achievement: Theoretical Perspectives. (pp. 1-39). Mahwah, Lawrence Erlbaum Associates.
Zimmerman, B. J. (2002). Becoming a Self-Regulated Learner: An overview. Theory Into Practice, 41(2), 64-70.
Zimmerman, B. J., Bonner, S., &; Kovach, R. (Eds.) (1996). Developing self-regulated learners: Beyond achievement to self-efficacy. Washington, DC: American Psychological Association.

推文
推薦
引用網址
引用嵌入語法
轉寄

top

:::

相關期刊
相關論文
相關專書
相關著作
熱門點閱

1.	商展行銷課程創意教學成效之初探
2.	在職進修成人學習者思考風格與創造力之相關研究

1.	成人學習者思考風格與創造力之相關研究

無相關書籍

無相關著作

無相關點閱

QR Code

臺灣人文及社會科學引文索引資料庫系統

詳目顯示

臺灣人文及社會科學引文索引資料庫