أثر التفاعل بين نمط الدعم الإلکتروني والأسلوب المعرفي داخل برمجية محاکاة في تنمية مهارات برمجة الروبوت التعليمي والدافعية للإنجاز لدى طالبات الدبلوم الخاص بجامعة الملک عبد العزيز

نوع المستند : أوراق بحثیة

المؤلف

مدرس تقنيات التعليم کلية التربية جامعة بني سويف

الكلمات الرئيسية

الموضوعات الرئيسية


المارجع الأجنبیة: Aleven, V. (2003). Using Background Knowledge in Case- Based Legal Reasoning A computational Model and an Intelligent Learning Environment. Artificial Intelligence, on line: https://core.ac.uk/download/pdf/82243872.pdf Alsultanny, Y., Nouby, A. and Enazi, T. (2014). Effect of Simulation in E-learning programs on Misconceptions and Motivations towards Learning, Academic Journal. Vol5, No 2, 40-51. Azevedo, R (2003). Online Process Scaffolding and Student Self- Regulated Learning with Hypermedia. A paper presented at the Annual Meeting of the American Educational Research Association, (April 21-25), No. ED (478089) Balajadia ,D (2017).Gauging the ICT-Based teaching Readiness of Pre-Service Teachers in the Light of 21st Century Education, College of Education, University of the Assumption, City of San Fernando, International Journal of Social Sciences, 11-30. Basu, S; Sengupta, P; Biswas (2015). A Scaffolding Framework to Support Learning of Emergent Phenomena Using Multi-Agent-Based Simulation Environments, Res Sci Educ , 45:293–324, online https://link.springer.com/content/pdf/10.1007%2Fs1116 5-014-9424-z.pdf Bell, B. Kanar, A. & Kozlowski, S. (2008). Current Issues and Future Directions in Simulation-Based Training, Cornell University ILR School, Center for Advanced Human Resource Studies (CAHRS), on line: https://digitalcommons.ilr.cornell.edu Berland, M. & Wilensky, U. (2015). Comparing Virtual and Physical Robotics Environments for Supporting Complex Systems and Computational Thinking, Sci
أثر التفاعل بین نمط الدعم الإلکترونی والأسلوب المعرفی داخل برمجیة محاکاة فی تنمیة مهارات برمجة الروبوت التعلیمی والدافعیة للإنجاز لدى طالبات الدبلوم الخاص بجامعة الملک عبد العزیز
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Educ Techno l 24, 628–647 Casem, R. (2013). Scaffolding Strategy in Teaching Mathematic: It's Effect on Student's Performance and Attitude, Comprehensive Journal of Educational Research, Vol 1 N 1, May, 9-19. Chen, S. Y., & Macredie, R. (2010). Web-based Interaction: a Review of Three Important Human Factors. International Journal of Information, Management, 30 (5), 379–387. Journal homepage: www.elsevier.com/locate/ijinfomgt Chen, W., Looi, C.-K., & Wen, Y. (2011). A Scaffold Software Tool for L2 Vocabulary Learning: Group Scribbles with graphic organizers, 9th International Conference on Computer Supported Collaborative Learning (CSCL), 414-421, 4- 8 July Clarebout, G; Horz, H. & Schnotz, W (2010). The Relation between Self-Regulation and the Embedding of Support in Learning Environments, Education Technology Research and Development, Vol58, 573–587, October. Jo An, Y. & Cao, L. (2014). Examining the Effects of Metacognitive Scaffolding on Students' Design Problem Solving and Metacognitive Skills in an online Environment, MERLOT, Journal of Online Learning and Teaching, Vol. 10, No. 4. Kindley, R. (2002). The Power of Simulation-Based E- Learning (SIMBEL), Strategies and Techniques for Designers, Developers, and Managers of eLearning, 1-8. Kolodziej, S (2010).The Role of Achievement Motivation in Education Aspiration and Performance. General and Professional Education, 42-48 Kommers, P; Stoyanov, S ; Mileva, N; & Martinez, K (2008).The Effect of Adaptive Performance Support System on Learning Achievement of Students, International Journal of Continuing Engineering
أثر التفاعل بین نمط الدعم الإلکترونی والأسلوب المعرفی داخل برمجیة محاکاة فی تنمیة مهارات برمجة الروبوت التعلیمی والدافعیة للإنجاز لدى طالبات الدبلوم الخاص بجامعة الملک عبد العزیز
86 العذد الحادٌ عشر – هجلة البحىث فٍ هجالات التربُة النىعُة
Education and Lifelong Learning, 18 (3), 351-363, online: https://ris.utwente.nl/ws/portalfiles/portal/6672581/ Adaptive%20 Performance%20Support%20System_preprint.pdf Kozhevnikov, M (2007). Cognitive Style in Context of Modern Psychology: Toward an Integrated Framework of cognitive Style, Psychology Bulletin, Vol 133, N 3, 464-481, on line http://nmr.mgh.harvard.edu/mkozhevnlab/wp content/uploads/pdfs/ cognitive_styles2007.pdf Lu, J.; Lajoie, P.; & Wiseman, J. (2010). Scaffolding Problem-Based Learning with CSCL Tools. Computer- Supported Collaborative Learning, 5 (3), 283-298, July. Puntambekar, S & Hübscher, R (2005). Tools for Scaffolding Students in a Complex Learning Environment: What Have We Gained and What Have We Missed? Educational Psychologist, 40 (1), 1–12, on line: https://pdfs.semanticscholar.org/553a/2d5453f69c00da4 c6ebda5aeabb20210da42.pdf Michael, K. (2001).Comparison of Students' Product Creativity Using a Computer Simulation Activity versus a Hands-on Activity in Technology Education. Journal of Technology Education, 13 (1), 31-43 Raes, A. Schellens, T. Wever, B. & Vander oven ,E (2012). Scaffolding Information Problem Solving in Web-Based Collaborative Inquiry Learning, Department of Educational Studies, Computers & Education Journal, Vol59, 82-94, https://dl.acm.org/citation.cfm?id=2151560 Rodríguez. D, Sicilia, M. Gallego, J. (2006) .E-Learning in Project Management Using Simulation Models: A Case Study Based on the Replication of an Experiment, IEEE
أثر التفاعل بین نمط الدعم الإلکترونی والأسلوب المعرفی داخل برمجیة محاکاة فی تنمیة مهارات برمجة الروبوت التعلیمی والدافعیة للإنجاز لدى طالبات الدبلوم الخاص بجامعة الملک عبد العزیز
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TRANSACTIONS ON EDUCATION, VOL. 49, NO. 4, Nov, 451-463, on line: https://ieeexplore.ieee.org/document/4012670/ Roll, l. Holmes, N. Day, J & Bonn, D. 2012. Evaluating Metacognitive Scaffolding in Guided Invention Activities, Instr Sci, 40, P: 691–710, on line https://link.springer.com/content/pdf/10.1007%2Fs1125 1-012-9208-7.pdf Sentongo, J., Kyakulaga1, R. & Kibirige, I. (2013). The Effect of Using Computer Simulations in Teaching Chemical. International Journal of Science Education, 5 (4), 433-441 Silk, E. (2011). Resource for learning robot: Environments and Framings connecting Math in Robotics, PHD, university of Pittsburg. Simons, K. D. & Klein, J. D. (2007). The Impact of Scaffolding and Student Achievement Levels in a Problem-Based Learning Environment. Instructional Science, 35, 41-72. Singh, K. (2011). Study of Achievement Motivation in Relation to Academic Achievement of Students, International Journal of Educational Planning & Administration, V1, N2, 161-171. Woodward, J., Carnine, D. & Gersten, R. (2010). Teaching Problem Solving Through Computer Simulation. American Educational Research Journal, 25 (1), 72- 86. Zhang, M. & Quintana ,C. (2012). Scaffolding Strategies for Supporting Middle School Student' Online Inquiry Process, Computer& Education, Vol 58, N1, Jan, 181- 196.