研究生: |
黃雅鈴 |
---|---|
論文名稱: |
探究九年級學生在電腦模擬的不同環境中,概念學習與投入行為之研究─以力與運動為例 |
指導教授: |
吳心楷
Wu, Hsin-Kai |
學位類別: |
碩士 Master |
系所名稱: |
科學教育研究所 Graduate Institute of Science Education |
論文出版年: | 2005 |
畢業學年度: | 93 |
語文別: | 中文 |
論文頁數: | 123 |
中文關鍵詞: | 力學概念 、電腦模擬 、教師引導學習 、學生自控學習 、認知投入 |
論文種類: | 學術論文 |
相關次數: | 點閱:225 下載:52 |
分享至: |
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摘要
本研究探討透過資訊科技的不同使用方式─教師引導學習與學生自控學習─學生概念的發展以及投入行為的差異。本研究以九年級學生54人為研究對象,共分兩組教學。教師引導學習班級29人,教師以單槍將電腦模擬投射於大螢幕,透過討論及提問引導學生觀看模擬內容,完成學習單上的問題;學生自控班級25人,依高中低成就同質分組,兩人共同使用一部電腦,學生必須輪流操控電腦,自行完成學習單上的任務,教師為協助者。
本研究的量化分析結果,包括成就與電腦態度測驗。兩個班級(組間)分別在前、後、延宕測驗皆未達顯著差異,但兩班(組內)的後測與延宕測驗皆有顯著的進步( t(57)= - 9.234,p<.05,t(49) = - 7.634,p<.05)。後測部分,教師引導班級以低成就學生進步最多,學生自控班級以中、高成就學生進步分數較多。延宕分數,兩個班級的高、中、低成就學生彼此進步幅度皆相當,且以高成就進步最多,中成就其次,低成就進步最少,顯示高成就學生經過教學後長期記憶的保留程度最佳。電腦態度測驗中,兩個班級學生其電腦態度與後測分數皆屬低度相關,此部分結果顯示學生可能對電腦有高度興趣,但是不保證對學習科學概念有高度的理解。
本研究的質性資料是紀錄學生在使用電腦模擬過程的對話,加以分析後發現兩個班級的學生認知投入的比例最高,其次是行為投入;教師引導班級以問答形式互動最多,學生自控班級多以陳述方式互動;教師引導班級中學生提問多是非學習單的概念問題,學生自控班級中教師的提問多是任務性的問題。由學生自控班級的高中低成就學生的對話可知,低成就學生非投入的比例較高,高成就學生出現較多評估正確性的對話步驟,低成就學生較多覆誦。
綜合量化與質化分析結果顯示,電腦模擬的不同使用方式皆能促進學生的概念發展,但高中低成就的學生,在不同情境獲益程度也就不同。本研究詳細紀錄學生使用電腦模擬概念學習的過程,可供未來相關研究之參考。
Although previous studies in technology-based instruction has shown that students learn better with the use of technology, few of them explored how different teaching approaches (teacher-centered and student-centered) in technology-integrated classrooms influence student science learning. The study is addressed this issue by comparing ninth graders’ cognitive engagement and conceptual development in teacher-centered and student-centered technology integrated classrooms.
Fifty-four students (29 in the teacher-centered class and 25 in the student-centered class) from a public junior high school in Taiwan participated in this study. In the teacher-centered class, students learned concepts about force and motion through the teacher’s demonstration of computer simulations and classroom discussions, while in the student-centered class, students worked in pairs and learned the concepts through manipulating variables provided by computer simulations. Multiple sources of data were collected (e.g., achievement pre-, post-, and retention tests, computer attitude questionnaires and classroom observation) during a twelve-hour instructional unit.
The results appeared no significant differences between the two classes in the pre-, post-, and retention tests. Yet, the gain scores (posttest-pretest) showed different patterns across achievement groups in the two classes. In the teacher-centered class, students in the low achievement group gained the most, while in the student-centered class, medium and high achievement students improved the most. Students’ attitude toward computer was not correlated with their conceptual development. In addition, the analyses of classroom observation showed that students in both classes were cognitively engaged. Students in the student-centered class usually interacted through describing ideas, while students in the teacher-centered frequently interacted by teacher questioning. In the student-centered class a majority of questions students had were related to the worksheets and learning tasks, but in the teacher-centered class, questions asked by students were mostly genuine and conceptual and not relevant to the questions on the worksheets. The findings suggest that both teaching approaches promoted students’ conceptual development and provided students with different opportunities to cognitively engage in science learning.
參考文獻
一、中文部分
王月秋(民92)網頁輔助教學對國二學生在"光的折射"課程學習成效之研究。
國立高雄師範大學物理學系碩士論文
休伊特(民90)。觀念物理Ⅰ牛頓運動定律‧動量。天下文化(原著出版年1997)
全中平(民83)。師範學院學生對學習物理力學概念之分析研究。國立台北師範
學院學報,7,481-506
吳昌家(民91)電腦動畫輔助教學對國中學生粒子概念學習成效之研究。國立臺灣師範大學化學研究所碩士論文
李秀貞(民91)電腦媒體教學與自我效能對國中理化學習成就之相關研究。國立臺灣師範大學化學研究所碩士論文
林傳傑(民92) 資訊融入教學與評量─以「地球運動」為例。屏東師範學院/數理教育研究所碩士論文
邱俊宏(民93) 多媒體電腦輔助教學對國小學童學習線對稱圖形成效之研究屏東師範學院數理教育研究所碩士論文
唐富欽(民92)。科學發展。6月。366期
高德義(民92)國小學童以電腦模擬學習電路概念之學習成效分析研究。國立台北師範學院教育傳播與科技研究所碩士論文
張秀瀓(民91)電腦動畫融入教學對國中生電化學學習成就影響之研究。國立臺灣師範大學/化學系在職進修碩士學位班碩士論文
張國恩(民91)從學習科技的發展看資訊融入教學的內涵,北縣教育,41,16-25
張靜儀(民91)。科學迷思概念的研究與概念改變的教學。屏師科學教,16,49-56
郭重吉(民78)。利用晤談方式探查國中學生對重要物理概念的另有架構之研究
(Ⅰ)。國科會專題研究計畫成果報告(NSC78-0111-SO18-04-D)
陳忠志(民75)。大一學生物理錯誤概念之研究(Ⅰ)─力學錯誤概念。國科會
專題研究計畫成果
陳忠志(民76)。力學錯誤概念與教學成效的關係認知與學習研討會專集(第二
次)。158-176,行政院國科會。
陳淑筠(民91)。國內學生自然科學迷思概念研究之後設研究
傅麗玉(民85)。科學史與台灣中等科學教育之整合─問題與建議。化學教育面
面觀。台灣師大中等教育輔導委員會。165-193
曾靖華(民91)電腦輔助教學在改變學生基礎物理迷思概念之研究。中華大學應用數學系碩士班碩士論文
黃大一(民92)網頁輔助教學對國二學生在「光與顏色」課程學習成效之研究。國立高雄師範大學物理學系碩士論文
黃福坤(民92) 簡易動畫模擬設計製作環境: 互動式的科學教學/學習工具
ICCAI 2003國際研討會會議所報告的論文
楊其安(民78)。利用晤談探究國中學生對力學概念的另有架構。國力彰化師範
大學科學教育研究所碩士論文
楊純珠(民88)。「溶液」多媒體CAL之概念學習研究。國立台灣師範大學化學
研究所碩士論文。
楊勝安(民91)。以學習環之教學策略探討國中學生溶液相關概念的學習成效。
國立台灣師範大學化學系研究所論文
劉俊庚(民90)。迷思概念與概念改變教學策略之文獻分析-以概念構圖和後
設分析模式探討其意涵與影響。國立台灣大學師範大學科學教育研究所碩士
論文
鄭秀芬(民91)。高中生的波動概念探究與電腦輔助學習教材研製。國立師範大學物理研究所碩士論文
鄭茹芬(民90)。國中學生在力學課程後對力與運動概念認知之現況調查研究。
國立師範大學物理研究所碩士論文
閻中軍(民92)應用網路資源於高中基礎地球科學教學之研究。國立高雄師範
大學資訊教育研究所碩士論文
謝明錦(民91)利用學習網站探究國小五年級學童「光」的概念學習。國立台
北師範學院數理教育研究所碩士論文
簡順永(民89)。高二學生力概念的運用調查分析。國立台灣大學物理系研究所
碩士論文
二、西文部份
American Association for the Advancement of Science(1993). Benchmarks for Science Literacy. New York: Oxford University Press.
Abraham, M. R., & Renner, J. W.(1986). The sequence of learning cycle activities in high school chemistry. Journal of Research in Science teaching, 23(2), 121-143.
Alexopoulou, E., & Driver, R.(1996). Small-group discussion in physics: Peer interaction modes in pairs and fours. Journal of Research in Science Teaching, 33(10), 1099-1114.
Allard, D. W., & Barman, C. R.(1994). The learning cycle as an alternative method for college science teaching. Bioscience, 44(2), 99-102.
Anderson, C. W., Lee, O., & Kappan, P. D.(1997). Will students take advantage of opportunities for meaningful science learning? Phi Delta Kappan, 8(9), 720.
Anne, J. C., Mario, B., Melissa, D., & Wolfgang, C.(2003). Teaching thermodynamics with Physlets in introductory physics. 2003 Physics Education, 38, 433-440.
Anne, J. C., & Melissa, H. D.(2003). Instructors guide for physlet : interactive illstrations,explostrations,explorations,and problems for introductory physics.
Barman, C. R., Benz, R. J., Haywood, J. R., & Houk, G. A.(1992). Science and learning cycle. Perspectives in Education and Deafness, 11(1), 18-21.
Bliss, J., Ogborn, J., & Whitelock, D.(1989). Secondary school pupils' commonsense theories of motion. International Journal of Science Education, 11(3), 261-272.
Brown, D.(1992). Using examples and analogies to remediate misconceptions in physics : factor influencing conceptual change. Journal of Research in Science teaching, 29(1), 17-34.
Brown, D., & Clement, J.(1989). Overcoming misconceptions via analogical reasoning : Abstract transfer versus explanatory model construction. Instructional Science, 18, 237-261.
Bryant, R. J., & Marek, E. A.(1987). They like lab-centered science. The Science Teacher, 54(8), 42-45.
Cain, S. G.., & Evans, J. M.(1984). Sciencing : An involvement approach to elementary science methods(2nd)
Champagne, A. B., Klopfer, L. E., & Anderson, J. H.(1980). Factors influencing the learning of classical mechanics. American Journal of Physics, 48, 1974-1079.
Chang, C. Y.(2001). A problem-solving based computer-assisted tutorial for the earth sciences. Journal of Computer Assisted Learning, 17, 263-274.
Chang, C. Y.(2003). Teaching earth sciences:should we implement teacher-directed or student-controlled CAI in the secondary classroom. International Journal of Science Education, 25(4), 427-438.
Check, J. F.(1985). Fielding and initiating questions in class. The Clearing House, 58(6), 270-273.
Chee, C. T.(1989). Musconceptions concerning laws of motion,Frictional force and work done among students of different abilities at upper secondary level.
Christmann, E., Badgett, J., & Lucking, R.(1997). Microcomputer-based computer-assisted instruction within differing subject areas: a statistical deduction. Journal of Educational Computing Research, 16, 281-296.
Clark, R.(1983). Reconsidering research on learning from media. Review of Educational Research, 53, 445-459.
Clark, R.(1994). Media Will Never Influence Learning. Educational Technology Research and Development, 42(2), 21-29.
Clement, J.(1982). Students' preconceptions in introductory mechanics. American Journal of Physics, 50, 66-71.
Clement, J.(1993). Using bridging analogies and anchoring intuitions to deal with students' preconceptions in physics. Journal of Research in Science Teaching, 30(10), 1241-1257.
Clement, J., David, B., & Zietsman, A. I.(1989). Not all preconceptions are misconceptions : Finding"Ancjoring Conception" for grounding instruction on students' Intution. International Journal of Science Education ,11 , 554-565
Crooks, C.(1992). A comparison ogf videotaped models and the lecture technique in incresaing the use of questioning strategies presented in elementary science lessons. Journal of Science Teacher Education, 3, 76-78.
Damon, W., & Phelps, E.(1989). Critical distinction among three approaches to peer education. International Journal of Educational Research, 13,9-19.
Driver, R., Guesne, E., & Tiberghien, A.(1985). Children's Ideas in Science. Open University Press, Milton Keynes, UK
Duit, R., Jung, W. & von Rhneck, C. (1985). Aspects of understanding electricity. Keil, Germany: Schmidt & Klaunig.
Dupin, J. J., & Johsua, S.(1987). Conceptions of French pupils concerning electric circuits: structure and evolution. Journal of Research in Science Teaching, 24(9), 791-806.
Dykstra, D. J.(1982). A learning cycleon exponential growth and the energy crises. The Physics Teacher, 20(4), 245-246.
Edward, F. R.(1993). IS the Computer Appropriate for Teaching Physics? Computer in Physics, 7(6), 613.
Edwards, J., Norton, S., Taylor, S., Weiss, M., & Dusseldorp, R.(1975). How effective is CAI ? A review of the research. Educational Leadership, 33, 147-153.
Elmore, R. F.(1990). Restructuring schools: The next generation of educational reform. San Francisco: Jossey-Bass.
Farthing, F.(1975). Computer-assisted instruction:Some current literature. In Department Resource Handbook.
Finn, J. D., & Rock, D. A.(1997). Academic success among student at risk for school failure. Journal of Applied Psychology, 82, 221-234.
Fletcherflinn, C. M., & Gravatt, B.(1995). The efficacy of computer – assisted - instruction(CAI): a meta analysis. Journal of Educational. Computing Research, 12, 219-242.
Fredricks, J. A., Blunenfeld, P. C., & Paris, A. H.(2004). School engagement:potential of the concept, state of the evidence. Review of Education in Research, 74(1), 59-100.
Gallagher, J. J.(1987). A summary of research in science education-1985. Science Education, 71(3), 358-364.
Gilbert, J. K., & Watts, D. M.(1983). Concepts, misconceptions and alternative conceptiona: changing perpectives in science education. Studies in Science Educational, 10, 61-98.
Glynn, S. M., Britton, B. K., Semrud-Clikeman, M., & Muth, K. D.(1989). Analogical reasoning and problem solving in science textbooks. In J. A. Glover, R. R. Ronning, & C. R. Reynolds (Eds.), A handbook of creativity: Assessment, theory, and research, 383-398. New York: Plenum.
Goldberg, F. M., & Anderson, J. H.(1989). Student Difficulties with Graphical Representations of Negative Values of Velocity. The Physics Teacher, 4, 254-266.
Goodlad, J. I.(1984). A place called school:prospects for the future.
Gorsky, P., & Finegold, M.(1994). The role anomaly and cognitive dissonance in restructuring students' concepts of force. Instructional Science, 22, 75-90.
Gunstone, R.(1987). Student understanding in mechanics:a large population survey. American Journal of Physics, 55(8), 691-696.
Halloun, I., & Hestense, D.(1985). The initial knowledge state of college physics students. American Journal of Physics, 53(11), 1043-1055.
Hameed, H., Hackling, M. W., & Garnett, P. J.(1993). Facilitating conceptual change in chemical equilibrium using a CAI strategy. International Journal of Science Education, 15(2), 221-230.
Helm, H., & Novak, J.(1983). Proceeding of the International Seminar:Misconceptions in Science and Mathematics. Ithaca,NY : Cornell University, U.S.A.
Herrenkohl, L. R., & R.Guerra, M.(1998). Participant Structures, Scientific Discourse, and Student Engagement in Fourth Grade. Cognition and Instruction, 16(4), 431-473.
Hestense, D., Wells, M., & Swackhamer, G.(1992). Force Concept Inventory. The Physics Teacher, 30 , 141-158.
Hoffman, J., Wu, H. K., Krajcik, J. S., & Soloway, E.(2003). The Nature of Middle School Learners' Science Content Understanding with of On-line Resources. Journal of Research in Science Teaching, 40(3), 323-345.
Hokanson, B., & Hooper, S.(2000). Computers as cognitive media: examining the potential of computers in education. Computers in Human Behaviour, 16, 537-552.
Hudgins, F. P.(1985). Helping students ask their own questions. Social Education, 49(4), 293-296.
Hynd, C. R., Alvermann, D., & Qian, G.(1997). Preservice elementary school teachers' conceptual change about projectile motion: refutation text , demonstration, affective factor, and relevance. Science Teaching, 81, 1-27.
Hynd, C. R., McWhorter, J. Y., Phares, V. L., & Suttles, C. W.(1994). The role of instructional variables in conceptual change in high school physics topics. Journal of Research in Science Teaching, 31(4), 933-946.
John, R.Mc Garity, J., & P.Butts, D.(1984). the relationship among teacher classroom management behavior,student engagement ,and student achievement of middle and high school science students of varying aptitude. Journal of Research in Science Teaching, 21(1), 55-61.
Johsua, S., & Dupin, J. J.(1987). Taking into account student conceptions in instructional strategy : An example in physics. Cognition and Instruction, 4(2), 117-135.
Jonassen, D. H. (2000). Computers as mindtools for schools: engaging critical thinking. 2nd ed. Upper Saddle River, N.J.: Merrill.
Jung, W., Pfundt, H., & Rhoneck, C.(1982). Problems concerning students´ representation of physics and chemistry knowledge, 194-213. Ludwigsburg: Pdagogishe Hochschule.
Kaiserm, M. K., McClodkey, M., & Proffitt, D. R.(1986). Development of intuitive theories of motion: curvilinear motion in the absence of external force. Developmental Psychology, 22, 67-71.
Kozma, B.(1994). Will Media influence learning ? Reframing the Debate. Educational Technology Research and Development, 42(2), 7-9.
Kruger, C., Palacio, D., & Summer, M.(1992). Survey of English primary teachers : conceptions of force, energy and materials. Science Education, 76(4), 339-351.
Kuiper, F.(1994). Student ideas of science concepts:alternative framework? International Journal of Science Educational, 16(3), 279-292.
Kulik, J. A., Bangert-Drowns, R. L., & Williams, G. W.(1983). Effects of computer-based teaching in secondary school students. Journal of Educational Psychology, 75(1), 19-26.
Lawson, A. E.(1988). A better way to teack billogy. The American Bilogy Teacher, 50(5), 266-289.
Lawson, A. E., Abraham, M. R., & Renner, J. W. (1989). A theory of instruction: Using the learning cycle to teach science concepts and thinking skills [Monograph, Number One]. Kansas State University, Manhattan, Ks: National Association for Research in Science Teaching.
Lewis, E., & Linn, M.(1994). Heat energy and temperature conceptions of adolescents, adults,and experts via ontological category shift. International Journal of Science Education, 23(2), 111-149.
M.Ryan, A., & Patrick, H.(2001). The classroom Social Environment and Changes in Adolescents' Motivation and Engagement During Middle School. American Eucational Research Journal, 38(2), 437-460.
Marks, H. M.(2000). studnet engagement in instructional activity : patterns in the elementary, middle and high school years. American Eucational Research Journal, 37(1), 153-184.
Martin Nystrand, A. G.(1991). Instructional discourse, student engagement, and literature achievement. Research in the Teaching of English, 25 , 261-290.
McDermott, L. C.(1984). Research on conceptual understanding in mechanics. Physics Today, 37 ,24
Medley, D.(1977). Teacher competence and teacher effectiveness : a review of process-product research.Washington, D.C.: American Association of Colleges for Teacher Education, 1977.
Mitman, A. L., Mergendoller, J. R., Packer, M. J., & Marchman, V. A.(1984). Scientific literacy in seventh-grade lifescience:A study of instructional process,task completion, student percational and learning outcomes. Final Report.San Francisco: Far West Laboratory.
Morrell, D.(1992). The Effects of Computer Assisted Instruction on Student Achievement in High School Biology. School Science and Mathematics, 92(4), 177-181.
Nakhleh, M. B.(1983). An overview of microcomputers in the secondary science curriculum. The Journal of Computers in Mathematics and Science Teaching., 3(1), 13-21.
Newmann, F., Wehlage, G. G., & Lamborn, S. D.(1992). The significance and sources of student engagement. Student Engagement and Achievement in American Secondary Schools, 11-39.
Novak, J.(1997). A Theory of Education. Ithaca Cornell University Press.
National Research Council.(1996). National Science Education Standards.
Nystrand, M., & Gamoran, A.(1988). A study of instruction as discourse. Madison : The National Center on Effective Secondary Schools.
Nystrand, M., & Gamoran, A.(1991). Instructional discourse, student engagement, and literature achievement. Research in the Teaching of English., 25, 261-290.
Palmer, D. H., & Flanagan, R. B.(1996). Readiness to change the conception that"Motion-Implies-Force".A conparison of 12-Year-Old and 16-Year-Old students.
Reif, F.(1987). Instructional design, cognition and technology:Applications to the teaching of scientific concepts. Journal of Research in Science Teaching, 24(4), 309-324.
Renner, J. W., Abraham, M. R., & Birnie, H. H.(1985). Secondary school students' beliefs about the physics laboratory. Science Education., 65(9), 643-649.
Rogoff, B.(1990). Apprenticeship in thunking:cognitive development social context.
Sax, L. J., Astin, A. W., Korn, W. S., & Mahoney, K. M.(1997). The Amerian freshman : National norms for Fall 1997.
Scharmann, L. C.(1991). Teaching angiosperm reproduction by means of the learning cycle. School Science and Mathematics, 91(3), 100-104.
Shymansky, J. A., Yore, L. D., Treagust, D. F., Thiele, R. B., Harrison, A., Waldrip, B. G., et al.(1997). Examiming the construction process :A study of changes in level 10 students' understanding of classical mechanics. Journal of Research in Science Teaching, 34(6), 571-593.
Spiro, R. J., Feltovish, P. J., Coulson, R. J., & Andeson, D. K.(1989). Multiple analogies for complex conceptiond: Antidotes foe analogy-induced misconception in advanced knowledge acquisition. In S.Vosniadou & A.Ortony(Eds.)Similarity and analogical reasoning, 498-451.
Summerlin, L., & Gardner, M.(1973). A Study of tutorial-type computer assisted instruction in high school chemistry. Journal of Research in Science Teaching, 10, 75-82.
Tao, P. K., Richard, F., & Gunstone.(1999). Conceptual change in science through collaborative learning at the computer. International Journal of Science Education., 21(1), 39-57.
Thijs, G. D.(1992). Evaluation of an introductory course on " Force " considering students' preconceptions. Science Education, 76(2), 155-174.
Thomas, R. A., & Hooper, E.(1991). Simulations: An opportunity we are missing. Journal of Research on Computing in Education, 23(4), 497-513.
Tobin, K.(1986).Validating teacher performance measures against student engagement and achievement in middle school science. Science Education, 70(5), 539-547.
Tobin, K.(1988). Differential engagement of males and females in high school science. International Journal of Science Education, 10(3), 239-252.
Trembath, R. J.(1980). Decting and classify thr origins of science misconceptions.: EDU253 395.
Unruh, R., Countryman, L. L., & Cooney, T.(1992). The PRISMS approach. The Science Teacher, 59(5), 36-41.
Voelkl, K. E.(1997). Identification with school. American Journal of Education, 105, 204-319.
Watts, D. M.(1983). A study of schoolchildren's alternative framework of The Concept of Force. Europe Journal Science Education, 5(2), 217-230.
West, L., & Pines, A.(1985). Cognitive Structure and Conceptual Change. Academic Press.
White, B.(1984). Designing computer games to help physics students understand Newyon's law of motion. Cognition and Instruction, 1(1), 69-108.
White, B.(1993). Thinkertools:Causal models, conceptual change, and science education. Cognition and Instruction, 10(1), 1-100.
White, B., Christina, V., & Schwarz.(1998). Alternative Approaches to Using Modeling and Simulation Tools for Teaching Science.
Zietsman, A. I., & Hewson, P. W.(1986). Effect of instruction using microcomputer simulations and conceptual change strategies on science learning. Journal of research in science teaching, 23(1), 27-39.
Zollman, D.(1990). Leaning cycles for a large-enrollment calss. The Physics Teacher, 28(1)