研究生: |
朱繡延 Chu, Hsiu-Yen |
---|---|
論文名稱: |
高級中等學校學生STEM課外學習經驗、自我效能對STEM職業興趣與生涯選擇影響之研究 A Study on Relationship between STEM Extracurricular Learning Experience, Self-efficacy, Career Interest and Choice of High School Students |
指導教授: |
李懿芳
Lee, Yi-Fang |
學位類別: |
碩士 Master |
系所名稱: |
工業教育學系 Department of Industrial Education |
論文出版年: | 2019 |
畢業學年度: | 107 |
語文別: | 中文 |
論文頁數: | 110 |
中文關鍵詞: | STEM課外學習經驗 、STM自我效能 、STEM職業興趣 、STEM生涯選擇意願 |
英文關鍵詞: | STEM extracurricular learning experience, STM self-efficacy, STEM career interest, STEM career choice |
DOI URL: | http://doi.org/10.6345/NTNU201900581 |
論文種類: | 學術論文 |
相關次數: | 點閱:290 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
因應現今工業快速成長,STEM科學、科技、工程及數學領域,是未來人才培養的重要關鍵領域;而學生求學階段其STEM學習經驗,影響其選讀相關科系或從事相關領域職業的意願。本研究以社會認知生涯理論為基礎,探討高中生STEM課外學習經驗、STM自我效能、STEM職業興趣對生涯選擇意願的影響。本研究採調查研究法,調查對象為臺北市及新北市地區高一學生,以分層便利叢集方式抽樣,發放問卷440份,回收有效問卷429份,以描述性統計、結構方程模式、邏輯斯迴歸進行統計分析。研究發現:一、高中生STEM課外學習經驗偏少、STM自我效能感良好,對STEM職業有中度興趣;二、學生參與STEM課外學習經驗及良好的STM自我效能,有助於提升對STEM職業興趣與生涯選擇;三、社會認知生涯理論之生涯選擇模式能合理解釋高中生STEM領域生涯選擇;四、高中生STEM課外學習經驗、STM自我效能、STEM職業興趣,皆能有效預測學生STEM生涯選擇意願,以STEM職業興趣的解釋力最強。依據結果提出具體建議,供學生、教師與學校及未來研究參考:一、高中生宜於課餘時間參與STEM課外活動或廣泛閱讀科普讀物,拓廣相關領域知能與興趣;二、學校宜於正式課程時間之外,規劃STEM相關競賽、科展或企業參訪體驗等,以增加學生STEM課外學習經驗;三、教師宜透過適當教學、班級經營與輔導,協助學生提升其STM領域學習的自我效能;四、教師及學校可透過企業參訪或職涯體驗課程,增加學生對STEM職業的認識及興趣;五、未來研究建議針對不同對象、變項或研究方法,進行深入研究。
Given the rapid growth of modern industry and advanced technology nowadays, STEM had become one of the most significant pedagogical issues, and the major element for preparing future talent in the 21st century. The learning experience of STEM affects the students’ willingness, choosing STEM career path. Based on the social cognitive career theory, this research aimed to study the relationship between STEM extracurricular learning experience, self-efficacy, career interest and choice of high school students. The stratified convenience cluster sampling method was used to collect data from 440 high school students in Taipei City and New Taipei City, and 429 valid questionnaires were collected. It were analyzed with descriptive statistics, structural equation modeling, and logistic regression. The results were organized as follows: (1) The students had less experience in STEM extracurricular learning; however, their STM self-efficacy were high; interests is moderate. (2) STEM extracurricular learning experience, STM self-efficacy, and STEM career interest appeared to have particularly positive effect. (3) The model of career choice can be used to explain high school students’ STEM career choices. (4) STEM extracurricular learning experience, STM self-efficacy, and STEM career interest showed significant predictive power in terms of students' STEM career choices; among three, STEM career interest had the greatest predictive ability. Finally, according to the results, five specific suggestions were proposed in this research as references for students, teachers, schools and future researchers.
一、中文文獻
于泳紅(2010)。大學生的職業生涯選擇-職業生涯選擇影響因素的路徑分析。寧波大學學報,32(5),90-93。
田秀蘭(2003)。社會認知生涯理論之興趣模式驗證研究。教育心理學報,34(2),247-266。
田瑞良(2004)。雲林科技大學學生社團活動參與態度及阻礙因素之研究. (碩士論文)。國立雲林科技大學休閒運動研究所,雲林縣。
江春鳳、賴英娟、張楓明(2016)。幼兒教保系學生之社會支持、自我效能、結果預測及興趣對職業意向之影響。中華輔導與諮商學報,45,123-147。
余民寧(2006)。潛在變項模式:SIMPLIS的應用。臺北市:高等教育。
余民寧、趙珮晴、陳嘉成(2010)。以社會認知生涯理論探討影響選擇數學職業意圖的因素。教育科學研究期刊,55(3),177-201。
余安順(2014)。融合動手做與競賽策略在不同課程順序下之鎖具構造建立研究。科技與工程教育學刊,47(1),66-85。
吳明隆(2009)。SPSS操作與應用-問卷統計分析實務。臺北市:五南。
吳明隆(2009)。結構方程模式方法與實務應用。高雄市:麗文。
吳明隆、涂金堂(2010)。SPSS與統計應用分析。臺北市:五南。
吳武典、陳昭地(1998)。我國參與國際數學奧林匹亞競賽學生的追蹤研究。特殊教育研究學刊,16(18),347-366。
吳芝儀、蔡瓊玉(2001)。高職學生:生涯規劃。嘉義市:濤石。
李隆盛(2018年6月21日)。大學校院STEM教育如何跨領域整合?。UCAN電子報。取自https://yes-ucan.blogspot.com/2018/06/stem.html
林秀勤(2011)。理工學系大學生生涯選擇模式之研究(博士論文)。臺北市立教育大學,臺北市。
林秀勤、鄭雅丰、余毓琦(2017)。社會認知生涯理論之生涯選擇模式驗證研究-以某私立科技大學之幼保系學生為例。幼兒教保研究,19,21-48。
林幸台(1987)。生計輔導的理論與實施。臺北市:五南。
金樹人(1997)。生涯諮商與輔導。臺北市:東華。
姜淑華(2003)。臺東師院學生社團參與及影響因素之研究(未出版之碩士論文)。國立臺東大學,臺東市。
洪新華(2017)。自我效能與性別對於Scratch程式學習之影響-以國中生為例(碩士論文)。健行科技大學,桃園市。
香港教育局(2016)。推動 STEM 教育發揮創意潛能。2017年7月14日。取自http://www.edb.gov.hk/attachment/tc/curriculumdevelopment/ renewal/STEM_Education_Report_Chi_20170303.pdf
孫志麟(1991)。自我效能的基本概念及其在教育上的應用。教育研究雙月刊,22,47-54。
翁昇豐(2017)。科普閱讀對國小中年級學生自主學習影響之研究(碩士論文)。國立臺北教育大學,臺北市。
張永立(2017)。高雄市生活科技競賽(展示賽)—參賽得獎學生背景之個案研究(碩士論文)。國立高雄師範大學,高雄市。
張春興(1991)。現代心理學。臺北市:東華。
張春興(2006)。張氏心理學辭典。臺北市:東華。
張添洲(1993)。生涯發展與規劃。臺北市:五南
教育部(2014)。十二年國民基本教育課程綱要。取自https://www.naer.ed u.tw/files/15-1000-7944,c639-1.php?Lang=zh-tw
教育部(2018)。UCAN大專校院就業職能平台。取自https://ucan.moe.edu.tw/search/search.aspx#a1
教育部統計處(2018)。各級教育統計概況分析。取自http://stats.moe.go v.tw/files/analysis/106_all_level.pdf
教育部統計簡訊(2017)。我國高等教育STEM領域畢業生概況。取自http://stats.moe.gov.tw/files/brief/%E6%88%91%E5%9C%8B%E9%AB%98%E7%AD%89%E6%95%99%E8%82%B2STEM%E9%A0%98%E5%9F%9F%E7%95%A2%E6%A5%AD%E7%94%9F%E6%A6%82%E6%B3%81.pdf
許雅雯(2009)。大學生社團經驗及其與尌業力關係研究-以臺北縣市大學社團學生為例(碩士論文)。國立臺灣師範大學,臺北市。
陳文詠(2017)。青少年科學產業就職意願—社會認知生涯理論修正模式之驗證(博士論文)。國立臺中教育大學,臺中市。
陳施煥鵬(2015)。科博館資源融入教學對八年級學生理化學習成就、學習動機與學習感受之影響(碩士論文)。國立彰化師範大學,彰化縣。
陳春后(2015)。自我效能與STEM 樂高機器人課程對國民小學六年級學生學習成效與學習態度之影響(碩士論文)。國立中央大學,桃園市。
陳國明(2018)。大學生課外學習成果及其影響因素之研究–從校務研究策略觀點探析(博士論文)。國立臺灣師範大學,臺北市。
陳雅晴(2011)。國中生自我效能、結果預期、職業興趣與職業選擇之研究-以新北市Y國中為例(碩士論文)。銘傳大學,臺北市。
陳鴻義(2016)。以ADDIE模式發展STEM課程應用於科學營之學習成效研究(碩士論文)。臺北市立大學,臺北市。
麥孟生(2000)。個人心理類型、自我效能及態度對電腦學習成效之影響(碩士論文)。國立中央大學資訊管理學系,桃園市。
馮莉雅、戴明國、白雲霞(2004)。國中數學夏令營成效之研究。教育學刊,23,183-205。
黃芳銘(2005)。結構方程模式理論與應用。臺北市:五南。
黃建皓(2012)。家庭社經地位與班級經營效能對學生自我效能感之影響:階層線性模式分析。國立臺南大學教育經營與管理研究集刊,8,107-130。
楊素卿(2006)。師院生社團參與態度與教學自我效能之關係研究(碩士論文)。國立臺北教育大學,臺北市。
楊極東(1976)。我國大學院校學生課外活動現況調查研究。臺北市:正中書局。
葉至誠(2001)。職業社會學。臺北市:五南。
葉昌智(2014)。學生課外學習經驗與其畢業後生活適應關係之研究─以某大學校友為例(博士論文)。國立臺灣師範大學,臺北市。
葉昌智、李育齊、洪錦珠(2016)。畢業生大學時期課外學習投入與畢業後人際適應關係之研究-以某校校友為例。學生事務與輔導,55(1),26-42。
詹俊成、林裕恩、林郁偉、廖宗耀、陳素青(2016)。大學體育系學生涯選擇影響因素之研究-以社會認知生涯理論驗證。體育學報,49(3),317-335。
趙珮晴、余民寧(2018)。未來職業意圖受「情境」影響?以社會認知生涯理論分析TIMSS 2011年數學資料。教育科學研究期刊,63(3),231-255。
歐映青(2006)。以認知師徒制觀點探討科展績優教師應用科學社團指導學生進行科學探究活動之個案研究(碩士論文)。國立臺灣師範大學,臺北市。
蔡志賢(2012)。高等教育課外學習核心能力及其評量指標建構研究(碩士論文)。國立臺灣師範大學,臺北市。
蔡志賢(2015)。從「知識」份子到「知事」份子:談大學學生社團發展困境與解決之道。學生事務與輔導,53(4),6-16。
蔡志賢(2016)。學生社團經營與輔導-理論實務與應用。臺北市,自行出版。
鄭瑞洲(2017)。博物館科普數位資源建置與推廣。2017科普論壇,3,29。
賴英娟(2010)。教師支持、數學自我效能及數學興趣對職業意向之影響。中華輔導與諮商學報,28,1-27。
謝依儒、郭俊良、曾維國、徐維均(2014)。以社會認知生涯理論探究臺灣海峽兩岸航海系學生上船工作意願之影響差異。航運季刊,23(4),99-121。
謝雅卿(2015)。高職餐飲科學生職業認知、生涯自我效能對生涯決定影響(碩士論文)。輔仁大學,新北市。
簡晉龍、任宗浩(2011)。邁向科學之路?臺灣中學生性別對科學生涯選擇意向之影響。科學教育學刊,19(5),461-481。
簡靖哲(2018)。運用臺灣後期中等教育長期追蹤資料庫分析技術型高中學生課外學習經驗、自我效能對個人軟實力之影響(碩士論文)。國立臺灣師範大學,臺北市。
羅鴻仁(2012)。以社會認知生涯理論探討兩岸體育師資學生職涯發展能力結構模式驗證及比較研究(博士論文)。國立雲林科技大學,雲林縣。
二、英文文獻
Afterschool Alliance. (2011). STEM learning in after-school: An analysis of impacts and outcomes. Retrieved from http://www.afterschoolalliance.org/ STEM-Afterschool-Outcomes.pdf
Ainley, M., & Ainley, J. (2011). Student engagement with science in early adolescence: The contribution of enjoyment to students’ continuing interest in learning about science. Contemporary Educational Psychology, 36(1), 4-12.
Anderson, J. C., & Gerbing, D. G. (1988). Structural equation modeling in practice: A review and recommended two-steop approach. Psychological Bulletin, 103(3), 411-423.
Astin, A. W. (1991). What really matter in general education: Provocative findings from a national study of student outcomes. Address presented at the Association of General and liberal Studies Meeting, Seattle.
Bagozzi, R. P., & Yi, Y. (1988). On the evaluation of structural equation models. Journal of the Academy of Marketing Science, 16(1), 74-94.
Bandura, A. (1977). Self-efficacy: Toward a unifying theory of behavioral change. Psychological Review, 84(2), 191-215.
Bandura, A. (1986). Social foundation of thought and action: A social cognitive theory. Englewood Cliffs, N.J.: Prentice Hall.
Bandura, A. (1989). Social congnitive theory. Annals of Child Development, 6, 1-60.
Bandura, A. (1997). Self-efficacy: The exercise of control. New York: Freeman.
Bandura, A., Barbaranelli, C., Caprara, G. V., & Pastorelli, C. (2001). Self‐efficacy beliefs as shapers of children's aspirations and career trajectories. Child Development, 72(1), 187-206.
Basham, J. D., Israel, M., & Maynard, K. (2010). An ecological model of STEM education: Operationalizing STEM for all. Journal of Special Education Technology, 25(3), 9-19.
Bell, P., Lewenstein, B., Shouse, A. W., & Feder, M. A. (2009). Learning science in informal environments: People, places, and pursuits.Washington, DC: The National Academies Press.
Betz, N. E. (1994). Career counseling for women in the sciences and engineering. In W. B. Walsh & S. H. Osipow (Eds.), Contemporary topics in vocational psychology. Career Counseling for Women (pp. 237-261). Hillsdale, NJ, US: Lawrence Erlbaum Associates, Inc.
Blotnicky, K. A., Franz-Odendaal, T., French, F., & Joy, P. (2018). A study of the correlation between STEM career knowledge, mathematics self-efficacy, career interests, and career activities on the likelihood of pursuing a STEM career among middle school students. International Journal of STEM Education, 5(1).
Borchert, M. (2002). Career choice factors of high school students. Retrieved from http://core.ac.uk/download/pdf/5066035.pdf
Brown, P. L., Concannon, J. P., Marx, D., Donaldson, C. W., & Black, A. (2016). An Examination of Middle School Students' STEM Self-Efficacy with Relation to Interest and Perceptions of STEM. Journal of STEM Education: Innovations & Research, 17(3), 27-38.
Burr, B. (2012). Do extracurricular activities help adolescents develop academic selfefficacy? Evidence for how and why. All Theses and Dissertations. Retrieved from Brigham Young University institutional repository:http://www.scholarsarchive.byu.edu/etd/3268
Byrne, B. M. (2016). Structural equation modeling with AMOS: Basic concepts, applications and programming, 3rd edition. Abingdon: Routledge.
Cantrell, P., & Ewing‐Taylor, J. (2009). Exploring STEM career options through collaborative high school seminars. Journal of Engineering Education, 98(3), 295-303.
Castellanos, M. (2018). Examining Latinas’ STEM Career Decision-Making Process: A Psychosociocultural Approach. The Journal of Higher Education, 89(4), 527-552.
Christensen, R., Knezek, G., & Tyler-Wood, T. (2015). Alignment of hands-on STEM engagement activities with positive STEM dispositions in secondary school students. Journal of Science Education and Technology, 24(6), 898-909.
Chin, W. W. (1998). The partial least squares approach to structural equation modeling. Modern Methods for Business Research, 295(2), 295-336.
Conneran, J. M., & Hartman, B. W. (1993). The concurrent validity of the Self Directed Search in identifying chronic career indecision among vocational education students. Journal of Career Development, 19(3), 197-208.
Dabney, K. P., Tai, R. H., Almarode, J. T., Miller-Friedmann, J. L., Sonnert, G., Sadler, P. M., & Hazari, Z. (2012). Out-of-school time science activities and their association with career interest in STEM. International Journal of Science Education, Part B, 2(1), 63-79.
Dawis, R. V., & Lofquist, L. H. (1984). A psychological theory of work adjustment. Minneapolis, MN: University of Minnesota Press.
Devellis, R. F. (1991). Scale development theory and applications. Newbury, California: Sage.
Dewey, J. (1933). How we think. Boston: Health.
Dewey, J. (1938). Experience and education. New York: Collier Books.
Dickinson, J., Abrams, M. D., & Tokar, D. M. (2017). An examination of the applicability of social cognitive career theory for African American college students. Journal of Career Assessment, 25(1), 75-92.
Durlak, J. A., Weissberg, P., & Pachan, M. (2010). Meta-analysis of after-school programs that seek to promote personal and social skills in children and adolescents. American Journal of Community Psychology, 46, 294-309.
Eccles, J. S. (2009). Who am I and what am I going to do with my life? Personal and collective identities as motivators of action. Educational Psychologist, 44, 78–89.
Eccles, J. S., & Wigfield, A. (2002). Motivational beliefs, values, and goals. Annual Review of Psychology, 53, 109–132.
Eischens, A., Komro, K. A., Perry, C. L., Bosma, L. M., & Farbakhsh, K. (2004). The association of extracurricular activity participation with substance use among youth in the DARE Plus Project. American Journal of Health Education, 35(2), 68-75.
Falk, J. H., & Dierking, L. D. (2010). School is not where most Americans learn most of their science. American Scientist, 98(6), 486.
Fornell, C., & Larcker, D. F. (1981). Evaluating structural equation models with unobservable variables and measurement error. Journal of Marketing Research, 18(1), 39-50.
Fredricks, J. A., & Eccles, J. S. (2008). Participation in extracurricular activities in the middle school years: Are there developmental benefits for African American and European American youth? Journal of Youth & Adolescence, 37(9), 1029-1043.
Garriott, P. O., Raque-Bogdan, T. L., Zoma, L., Mackie-Hernandez, D., & Lavin, K. (2017). Social cognitive predictors of Mexican American high school students’ math/science career goals. Journal of Career Development, 44(1), 77-90.
Gerber, B. L., Marek, E. A., & Cavallo, A. M. L. (2001). Development of an informal learning assay. International Journal of Science Education, 23(6), 569-583.
Gietzelt, D. (1997). Social profile of first-year dentistry students at the University of Sydney. Australian Dental Journal, 42(4), 259-266.
Ginsberg, E., Ginsburg, S. W., Axelrad, S., & Herma, J. L. (1951). Occupational choice: An approach to a general theory. New York, NY, US: Columbia University Press.
Grigg, S., Perera, H. N., McIlveen, P., & Svetleff, Z. (2018). Relations among math self efficacy, interest, intentions, and achievement: A social cognitive perspective. Contemporary Educational Psychology, 53, 73-86.
Hair, J. F., Black, W. C., Babin, B. J., Anderson, R. E., & Tatham, R. L. (2006). Multivariate data analysis (Vol. 6). Pearson Prentice Hall Upper Saddle River, NJ.
Holland, J. L. (1985). Marking vocational choices: A theory of vocational personalities and work environment. Englewood Cliffs, NJ: Prentice Hall.
Kaiser, H. F. (1974). An index of factorial simplicity. Psychometrika, 39, 31-36.
Keller, J. W., Piotrowski, C., & Rabold, F. L. (1990). Determinants of career selection in undergraduates. Journal of College Student Development, 31(3), 276-277.
Kier, M. W., Blanchard, M. R., Osborne, J. W., & Albert, J. L. (2014). The development of the STEM career interest survey (STEM-CIS). Research in Science Education, 44(3), 461-481.
Kilpatrick, W. H. (1925). Foundations of method: Inform talks on teaching. New Yourk: Macmillan.
Kim, A., & Park, I. (2000). Hierarchical structure of self-efficacy in terms of generality levels and its relations to academic performance: General, academic, domain-specific, and subject-specific self-efficacy. Paper prepared for the Annual Meetings of the American Educational Research Association, New Orleans.
LaForce, M., Noble, E., & Blackwell, C. (2017). Problem-based learning (PBL) and student interest in STEM careers: The roles of motivation and ability beliefs. Education Sciences, 7(4), 92.
Lent, R. W., & Brown, S. D. (1996). Social cognitive approach to career development: An overview. The Career Development Quarterly, 44(4), 310-321.
Lent, R. W., Brown, S. D., & Hackett, G. (1994). Toward a unifying social cognitive theory of career and academic interest, choice, and performance. Journal of Vocational Behavior, 45(1), 79–122.
Lent, R. W., Brown, S. D., Brenner, B., Chopra, S. B., Davis, T., Talleyrand, R., & Suthakaran, V. (2001). The role of contextual supports and barriers in the choice of math/science educational options: A test of social cognitive hypotheses. Journal of Counseling Psychology, 48(4), 474-483.
Lent, R. W., Hackett, G., & Brown, S. D. (1999). A social cognitive view of school-to-work transition. The Career Development Quarterly, 48, 297-304.
Lent, R. W., Larkin, K C., & Brown, S. D. (1989). Relation of self-efficacy to inventoried vocational interests. Journal of Vocational Behavior, 34, 279-288.
Lent, R. W., Singley, D., Sheu, H. B., Schmidt, J. A., & Schmidt, L. C. (2007). Relation of social-cognitive factors to academic satisfaction in engineering students. Journal of Career Assessment, 15(1), 87-97.
Li, J., Mau, W. C. J., Chen, S. J., Lin, T. C., & Lin, T. Y. (2019). A Qualitative Exploration of STEM Career Development of High School Students in Taiwan. Journal of Career Development, 1-15.
Liu, Y. H., Lou, S. J., & Shih, R. C. (2014). The investigation of STEM Self-Efficacy and Professional Commitment to Engineering among female high school students. South African Journal of Education, 34(2), 1-15.
Long, K. L. (2002). The relationship of educational choice to self-efficacy, outcome expectations, vocational identity, and career goals among high school students (Unpublished doctoral dissertation). The Florida State University.
Low, K. S. D., Yoon, M., Roberts, B. W., & Rounds, J. (2005). The stability of vocational interests from early adolescence to middle adulthood: A quantitative review of longitudinal studies. Psychological Bulletin, 131, 713-737.
Maddux, J. E., & Stanley, M. A. (1986). Self-efficacy theory in contemporary psychology: An overview. Journal of Social and Clinical Psychology, 4, 249-255.
Marchese, T. J. (1990). A new conversation about undergraduate teaching. Interview with Prof. Richard J. Light, convener of the Harvard Assessment Seminars. AAHE Bulletin, 42(9), 3-8.
Martin W. Moakler Jr, & Kim, M. M. (2014). College major choice in STEM: Revisiting confidence and demographic factors. The Career Development Quarterly, 62(2), 128-142.
Mau, W. C. J., & Li, J. (2018). Factors Influencing STEM Career Aspirations of Underrepresented High School Students. The Career Development Quarterly, 66(3), 246-258.
McCrea, R. (2010). Religion and the public order of the European Union. Oxford University Press.
Merriam-Webster.com. (2019). Extracurricular activities. Retrieved from http://www.merriam-webster.com/dictionary/extracurricular
Miller, K., Sonnert, G., & Sadler, P. (2018). The influence of students’ participation in STEM competitions on their interest in STEM careers. International Journal of Science Education, Part B, 8(2), 95-114.
Mississippi Department of Education. (2011). STEM applications. Jackson, MS: Author.
Morgan, C., Isaac, J. D., & Sansone, C. (2001). The role of interest in understanding the career choices of female and male college students. Sex Roles, 44(5-6), 295-321.
Morris, D. S. (2015). Actively closing the gap? Social class, organized activities, and academic achievement in high school. Youth & Society, 47(2), 267-290.
Navarro, L. (2005). Las creencias de autoeficacia docente del profesorado universitario (Unpublished doctoral dissertation synthesis). Universidad Pontificia Comillas de Madrid.
Nugent, G., Barker, B., Welch, G., Grandgenett, N., Wu, C., & Nelson, C. (2015). A Model of Factors Contributing to STEM Learning and Career orientation. International Journal of Science Education, 37(7), 1067-1088.
Nunnally, J. (1978). Psychometric methods. New York: McGraw-Hill.
OECD. (2011). Quality time for students: Learning in and out of school. Paris: Author. Retrieved fromhttp://www.oecd.org/edu/school/programmeforinternationalstudentassessmentpisa/pisa-qualitytimeforstudentslearninginandoutofschool.html
Özyürek, R. (2005). Informative sources of math-related self-efficacy expectations and their relationship with math-related self-efficacy, interest, and preference. International Journal of Psychology, 40(3), 145-156.
Pintrich, P. R., Smith, D. A. F., Garcia, T., & McKeachie, W. J. (1991). A manual for the use of the Motivated Strategies for Learning Questionnaire (MSLQ). Ann Arbor, Michigan: The University of Michigan.
Pintrich, P., & Schunk, D. (1996). The role of expectancy and self-efficacy beliefs. Motivation in education: Theory, research & applications, 3.
Preacher, K. J., & Hayes, A. F. (2008). Asymptotic and resampling strategies for assessing and comparing indirect effects in multiple mediator models. Behavior Research Methods, 40(3), 879-891.
Robnett, R. D., & Leaper, C. (2013). Friendship groups, personal motivation, and gender in relation to high school students' STEM career interest. Journal of Research on Adolescence, 23(4), 652-664.
Roth, W. G. (1985). Treatment implication derived from self-efficacy research with children. (Unpublished doctoral dissertation), Biola University, California.
Sadler, P. M., Sonnert, G., Hazari, Z., & Tai, R. (2012). Stability and volatility of STEM career interest in high school: a gender study. Science Education, 96(3), 411–427.
Sahin, A. (2013). STEM clubs and science fair competitions: Effects on post-secondary matriculation. Journal of STEM Education, 14(1), 5-11.
Sahin, A., Ekmekci, A., & Waxman, H. C. (2017). The relationships among high school STEM learning experiences, expectations, and mathematics and science efficacy and the likelihood of majoring in STEM in college. International Journal of Science Education, 39(11), 1549-1572.
Sandra, I., Juliette, H., & Iro Xenidou‐Dervou. (2018). Implicit STEM ability beliefs predict secondary school students' STEM self‐efficacy beliefs and their intention to opt for a STEM field career. Journal of Research in Science Teaching, 465-485.
Schunk, D. H. (1989). Self-efficacy and achievement behaviors. Educational Psychology Review, 1, 173-208.
Shemwell, B. (2010). The effects of a curriculum intervention on Arkansas students' interests in manufacturing as measured by the Kuder career interest assessment (Unpublished doctoral dissertation). Arkansas State University, Arkansas.
Smith, P. L., & Fouad N. A. (1999). Subject-matter specificity of self-efficacy, outcome expectancies, interests, and goals: Implications for the social–cognitive model. Journal of Counseling Psychology, 46(4), 461-471.
stemcareers.com. (2018). Extracurricular Experiences. Retrieved from http://stemcareer.com/
Stocklmayer, S. M., Rennie, L. J., & Gilbert, J. K. (2010). The roles of the formal and informal sectors in the provision of effective science education. Studies in Science Education, 46(1), 1–44.
Super, D. E. (1957). The psychology of careers: An introduction to vocational development. New York: Happer & Row.
Super, D. E. (1990). A life-span, life-space approach to career development. In D. Brown, L. Brooks, & Associates (Eds), Career choice and development (2nd ed., p.p. 197-261). San Francisco, CA: Jossey-Bass.
U.S. Government Accountability Office (GAO). (2012). Science, technology, engineering, and mathematics education: Strategic planning needed to better manage overlapping programs across multiple agencies (GAO-12-108). Washington, DC: Author.
Wang, M. T., & Degol, J. (2013). Motivational pathways to STEM career choices: Using expectancy–value perspective to understand individual and gender differences in STEM fields. Developmental Review, 33(4), 304-340.
Wang, M. T., Ye, F., & Degol, J. L. (2017). Who chooses STEM careers? Using a relative cognitive strength and interest model to predict careers in science, technology, engineering, and mathematics. Journal of Youth and Adolescence, 46(8), 1805-1820.
Wang, X. (2013). Why students choose STEM majors: Motivation, high school learning, and postsecondary context of support. American Educational Research Journal, 50(5), 1081–1121.
Watt, H. M. G. (2006). The role of motivation in gendered educational and occupational trajectories related to maths. Educational Research and Evaluation, 12, 305-322.
Wilkerson, S. B., & Haden, C. M. (2014). Effective practices for evaluating STEM out-of-school time programs. Afterschool Matters, 19, 10-19.
Wu, M. C., Marsono, M., & Khasanah, F. (2019, January). Advancing Vocational Student’s Self-Efficacy Through Integration STEM (Science Technology Engineering and Mathematics) Education. In 2nd International Conference on Vocational Education and Training (ICOVET 2018). Atlantis Press.
Zhang, D., & Tang, X. (2017). The influence of extracurricular activities on middle school students’ science learning in China. International Journal of Science Education, 39(10), 1381-1402.
Zhang, L., & Barnett, M. (2015). How high school students envision their STEM career pathways. Cultural Studies of Science Education, 10(3), 637-656.