研究生: |
林佳旻 chiaminlin |
---|---|
論文名稱: |
初探高一學生對「重大地球科學事件」的認知及其相關影響因子 |
指導教授: | 張俊彥 |
學位類別: |
碩士 Master |
系所名稱: |
地球科學系 Department of Earth Sciences |
論文出版年: | 2007 |
畢業學年度: | 95 |
語文別: | 中文 |
論文頁數: | 75 |
中文關鍵詞: | 地球科學 、地質年代 、認知 、科學教育 、性別差異 |
論文種類: | 學術論文 |
相關次數: | 點閱:193 下載:7 |
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本研究的主要目的,在於定義高中課程中「重大地球科學事件(MGE)」的項目,並探討高中學生對「MGE」各種尺度時間概念(代、紀、相對排序及絕對年代)理解的程度,以及影響高中學生「MGE」認知的相關因素,並使用描述性統計及相關性(多元迴歸)、t-test及ANOVA分析方式,來探討影響高一學生MGE認知的因子。為達成研究目的,本研究採用問卷調查的方法進行,且以立意取樣的方式,選取曾配合基礎地球科學中心「重大地球科學事件」網路調查之教師及其任教之高一學生為取樣樣本。從參與網路調查之34所高中,隨機抽取20所之教師及其任教學生為樣本,共計抽取教師樣本20人,回收樣本14人,有效樣本10人;抽取學生樣本800人,回收樣本560人,有效樣本422人。
研究結果主要有以下五點:(一)有百分之70%以上的教師認為重要且為課綱內容的MGE為:(1)固體地球的形成(2)太陽系的起源或形成(3)大氣層中氧氣的出現 (4)原始海洋的形成 (5)盤古大陸的分裂(6)地球上早期生命的出現—藍菌出現(7)大氣層中臭氧的出現(8)台灣島的形成(9)大霹靂的發生。(二)前述之9項MGE裡,學生最感興趣的為「大霹靂的發生」,而學生最不感興趣的事件為「大氣層中臭氧的出現」。以出現頻率而言,「太陽系的起源與形成」是九項事件中最常出現的,而「盤古大陸的分裂」是最不常出現的事件。比較學生與教師在興趣與課程出現頻率的分數差異可以發現,教師在兩者的平均分數均高於學生。(三)由分析答對率結果可知,學生對於MGE的相對年代認知顯著高於學生對絕對年代的認知,且學生對於MGE的排序認知亦顯著高於學生對絕對年代的認知。(四)影響學生代認知的因素為地科興趣、紀認知及相對年代排序;影響學生紀認知的因素為事件興趣、事件頻率、代認知及絕對年代認知;影響學生相對年代排序的因素為代認知、地科信心及絕對年代認知;影響學生絕對年代認知的因素為紀認知、相對年代排序及地科興趣。(五)學生性別差異出現在地科信心、事件興趣、紀認知、相對年代排序、絕對年代認知共五項項目,在統計上男生分數皆顯著高於女生,但為小效果量。
Abstract:To Understand of geological time concepts of senior high school students, a total of 10 teachers and 422 students were surveyed. The first purpose of the research was to identify “major geo-events (MGE)”. The second was to investigate which factors would influency students’ conceptions of era knowledge (EK), period knowledge (PK), relative age sequencing (RAS),and absolute age knowledge (AAK).As a result, five research questions were posed, addressing: (1) specifying major geo-events by senior high school teachers; (2) the conceptions of students’ EK, PK, RAS and AAK of the MGE; (3) resolving influences of IES, SCES, IGE, and EGE on EK, PK, RAS and AAK; (4) gender differences in IES, SCES, IGE, and EGE; and (5) gender differences in EK, PK, RAS and AAK. Results show that: (1) at least 70% of the teachers considered that ”Solid Earth’s formation”, “Solar system origins”, “Oxygen appeared in the atmosphere”, “Atlantic opens”, “Pangaea fragmented”, “cyanobacteria appeared ”, “ozone appeared in the atmosphere”, “Taiwan island formed” and “Big bang” were nine most important major geo-events; (2)students were most interested in “Big bang” and least interested in “ozone appeared in the atmosphere” , but considered “Solar system origins” and “Pangaea fragmented” as the most encountered events and the least events respectively among the MGE. Comparing with teacher views indicated that teachers’ scores in IGE and EGE were both higher than students’; (3) students’ EK & PK were both superior to their AAK, and was their RAS. (4) students’ IES, PK, RAS would effect their EK, for PK, these effect factors IGE, EGE, EK and AAK, then for RAS, these factors were EK, SCES, and AAK, last for AAK, the factors were IES, PK and RAS; (5)there were gender differences in IES, SCES, IGE, EGE, EK, PK, RAS and AAK, but the effect sizes were small.
中文部份
1.葉連祺,林淑萍(2002):Bloom認知領域教育目標分領修訂版之探討。教育研究月刊 105期。取自:http://www.bio.ncue.edu.tw/bio95/1/data/t2/1004/bloom.doc
2.耿德英(2006):學習自控力與學習動機、自信心、責任心的相關研究。<<大陸理學院學報 >>2006年05期。取自:http://scholar.ilib.cn/Abstract.aspx?A=dlxyxb200605021
3.蔡淑桂(1999):建構式數學教學模式對數學學習障礙兒童解題能力及數學信念之影響研究。台北市:國立台灣師範大學科學教育研究所碩士論文。
4.邱正雄(2005):國中、小學生自然與生活科技學習領域學習焦慮與學習動機之研究。花蓮縣:國立花蓮教育大學科學教育研究所碩士論文。
5.陳麗妃(2005):TIMSS 2003國小四年級學生背景、家庭環境、科學興趣、自信與科學成就關係之比較分析:以七國為例。新竹市:國立新竹教育大學進修部課程與教學碩士班碩士論文。
6.蕭培以(2005)。探討國三學生對學習科學及科學事業的性別認知及態度。彰化縣:國立彰化師範大學生物學所碩士論文。
英文部份
7.Ainley, M., Hidi, S., & Berndorff, D. (2002). Interest, learning and the psychological processes that mediate their relationship. Journal of Educational Psychology, 94(3), 545-561.
8.Alan, T.(2005).Producting Error Bars of Approprite Size in Spss.
9.American Psychological Association. (2001). Publication manual of the American Psychological Association (5th ed.). Washington, DC: Author.
10.Anderson, W., Krathwohl, D.R.(Eds.)(2001).A taxonomy for learning, teaching, and assessing:A revision of Bloom’s educational objectives. New York, NY:Longman.
11.Ault, C. R. (1982). Time in geological explanations as perceived by elementary-school students. Journal of Geological Education, 30(5), 304-309.
12.Baird, John R. (1991) Challenge: A Focus for Improving Teaching and Learning. Chicago:Annual Conference of the American Educational Research Association.
13.Baird, John R.; Fensham, Peter J.; Gunstone, Richard F.; White, Richard T (1991) The importance of reflection in improving science teaching and learning, Journal of Research in Science Teaching, vol. 28, Issue 2, pp.163-182
14.Ball, Deborah Loewenberg; McDiarmid, G. Williamson (1989) The Subject Matter Preparation of Teachers. Issue Paper 89-4.National center for research on Teacher Education , 116, Erickson Hall , College of Education, Michign State University, East Lansing, MI 48824-1034.
15.Blake, A. (2004). Helping Young Children to See What Is Relevant and Why: Supporting Cognitive Change in Earth Science Using Analogy. International Journal of Science Education, v26 n15 p1855-1873.
16.Blake, A.(2001). Developing Young Children's Understanding: An Example from Earth Science. Evaluation & Research in Education, v15 n3 p154-163.
17.Boekaerts, M. & Boscolo, P. (2002) Interest in learning, learning to be interested, Learning & Instruction, 12, 375-382.
18.Caillot, M., Chartrain, J,(2001). Conceptual Change and Relation to Knowledge: The Case of Volcanism at Primary School. Paper presented at the Annual Meeting of the American Educational Research Association (Seattle, WA, April 10-14, 2001).
19.Chang, C. Y., Cheng (2007) Science achievement and students’ self-confidence and interest in science: A nationally representative sample study of Taiwan. (in press)
20.Chang, C.-Y. (2005). Taiwanese science and life technology curriculum standards and Earth systems education. International Journal of Science Education, 27, 625-638.
21.Chang, C-Y., Lee, W-C. & Yeh, T-K. (2006) Taiwanese earth science curriculum guidelines and their relationship to the earth systems education of the United States. Journal of Geoscience Education. 54.5, 620-624.
22.Chris King.(2007). What component of earth science should a science curriculum contain – and what should form the core of a new Earth/environmental science GCSE?
23.Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2 ed.). Hillsdale: Lawrence Erlbaum.
24.Department of Education (DE) (2002) Revised national curriculum statement for grades R – 9 (schools): natural science. Pretoria: Department of Education.
25.Dodick, J., & Orion, N. (2003). Cognitive factors affecting student understanding of geologic time. Journal of Research in Science Teaching, 40(4), 415-442.
26.Gabel, D. L. (1981). Facilitating Problem Solving in High School Chemistry. NY:Annual Meeting of the National Association for Research in Science Teaching.
27.Geoff C., Fiona F., Martine L., Pavel K., Ashton C., Anita K., Jessica L., Natalie M., Sara W., Statistical Reform in psychology—Is anything changing?(2007) Psychological Science. Vol. 18, No.3, 230-232.
28.Goldstein H., Healy M. (1995).The graphical presentation of a collection of means. J. Royal Stat. Soc. A. 158, 175-177
29.Goto, M. (2007a) National curriculum from 7th to 9th grade science for lower secondary school. Personal communication.
30.Goto, M. (2007b) Integrated Science (required for the 10th grade). Personal communication.
31.Graber, R. A. (1972) .The Effect of Subsuming Concepts on Student Achievement and the Interaction Effect of Subsumers with High and Low Organizing Ability. Michigan:University Microfilms.
32.Graham, C. (2006) A Curriculum for Excellence: Science Rationale - Draft Learning Outcomes in Earth Science. Personal communication.
33.Hidi, S. & McLaren, J. A. (1990) The effect of topic and theme interestingness on the production of school expositions, in: H. Mandles, E. D. Corte, N. Bennett & H. F. Frederich (Eds) Learning and instruction: European research in an international context. Oxford: Pergamon.
34.Hoffman, L. , Krapp, A., Renninger, K. A. & Baumert, J.(1998) Interest and learning: proceedings of the Seeon Conference on interest and gender .Kiel: IPN.
35.Hunt, M. M. (1983). How Meaning Is Born. MT :Annual Meeting of the Rocky Mountain Regional Conference of the International Reading Association.
36.Jerald, C.D. (2007). Believing and Achieving. Issue Brief.Center for Comprehensive School Reform and Improvement
37.Longo, P. J(2001). What Happens to Student Learning When Color Is Added to a New Knowledge Representation Strategy? Implications from Visual Thinking Networking.
38.Loveless, T. (2006).The 2006 Brown Center Report on American Education: How Well Are American Students Learning? With Special Sections on the Nation's Achievement, the Happiness Factor in Learning, and Honesty in State Test Scores. Volume II, Number 1.Brookings Institution
39.Marsh, Herbert W.; Craven, Rhonda; Debus, Raymond (1999)Separation of Competency and Affect Components of Multiple Dimensions of Academic Self-Concept: A Developmental Perspective. Merrill-Palmer Quarterly, v45 n4 p567-601 Oct 1999
40.Mayer, V. J. (1993). Earth Systems Education. ERIC/CSMEE Digest. ERIC Publications
41.Mayer, V. J. (Ed) (2002) Global science literacy. Dordrecht: Klewer
42.McPhee, J. (1981). Basin and Range. New York: Farrer, Straus & Giroux.
43.Mitchell, M. (1993) Situational interest: its multifaceted structure in the secondary school mathematics classroom, Jourl of Eduacational Psychology, 85 424-436.
44.Orion, N. (2007) The Israeli Earth science curriculum: goals, objectives and syllabus, personal communication.
45.Renninger, K. A. (2000). Individual interest and its implications for understanding intrinsic motivation. In C. Sansome & J. M. Harachiewicz (Eds.), Intrinsic and Extrinsic Motivation: the search for optimal motivation and performance (pp. 373-404). Newy York: Academic Press.
46.Renninger, K. A., Hidi, S., & Krapp, A. E. (1992). The Role of Interest in Learning and Development. Hillsdale New Jersey: Lawrence Erlbaum Associates.
47.Resnick, L. B.(1986). Cognition and Instruction: Recent Theories of Human Competence and How It Is Acquired. National Inst. of Education (ED), Washington, DC
48.Schluck, C. G. (1977). The Effects of Ability Grouping upon the Self-Confidence and Achievement of Students Who Are Learning to Read.
49.Strong, R. W.; Silver, H. F.; Perini, M. J.; Tuculescu, G. M. (2002). Reading for Academic Success: Powerful Strategies for Struggling, Average, and Advanced Readers, Grades 7-12. San Francisco:Corwin Press.
50.Trend, R. D. (1998). An Investigation into Understanding of Geological Time among 10- and 11-year-old Children. International Journal of Science Education, 20(8), 973-988.
51.Trend, R. D. (2001a). Deep Time Framework: a preliminary study of UK primary teachers' conceptions of geological time and perceptions of geoscience. Journal of Research in Science Teaching, 38(2), 191-221.
52.Trend, R. D. (2001b). An Investigation into the understanding of geological time among 17-year-old students, with implications for the subject matter knowledge of future teachers. International Research in Geographical and Environmental Education, Vol. 10, No.3, 298-321.
53.Trend, R. D. (2003). Thomas Huxley and Earth system science: opportunities for fostering global science literacy in UK schools. In V. J. Mayer (Ed.), Implementing Global Science Literacy (Vol. Ch. 7, pp. 93-110). Columbus Ohio: Ohio State University.
54.Trend, R. D. (2005). Individual, Situational and Topic Interest in Geoscience among 11- and 12-year-old Children. Research Papers in Education, 20(3), 271-302.
55.Trend, R. D.(2004).How important is Deep time. Tao Yuan, Taiwan(演講稿)
56.Trend, R. D., Chang, C.-Y.(2007).A comparison of Taiwan and UK primary teachers’ geoscience interests and experiences. Paper presented at the 2007 ESERA (European Science Education Research Association).
57.You, L.-C.; Schallert, D. L(1992). Examining How Prospective Teachers Come To Understand Two Science Constructs, Evaporation and Condensation, as a Result of Class Discussion and Textbook Reading. San Francisco :Annual Meeting of the American Educational Research Association.