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KİMYA ÖĞRETİMİNDE KAVRAMSAL BİLGİSAYAR ANİMASYONLARI İLE GELENEKSEL ANLATIM YÖNTEMİN BAŞARIYA ETKİLERİ

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Abstract (2. Language): 
This study is related to the comparison the effect of "traditional educatio n system" largely used in chemistry with "computer supported teaching "by the use of conceptual animation techniques, upon the success of the education process. The study was carried out upon 57 tenth year students studying in Telecom high school in 2002-2003 educational year. The students were subjected to a 10- question primary survey in order to recognize them and determine their socio economical situations and they were given an elementary test to measure their primary knowledge about the subject. There were two classes chosen with equal success rate and both were given the subject of "chemical reactions and collision theory "one with the "traditional method" (control group) and the other with "computer supported educational method "(experimental group). Both classes were subjected to a 15 question conceptual test before and after the teaching process. The evaluation of data revealed that the experimental group was more successful compared with the control group.Boys were more successful in the experimental and girls were more successful in the control group.
Abstract (Original Language): 
Bu çalışma, Türkiye'deki liselerde, kimya öğretiminde yaygın olarak kullanılan "Geleneksel Anlatım Yöntemi" ile kavramsal bilgisayar animasyonlarının kullanılmasıyla gerçekleştirilen "Bilgisayar Destekli Öğretim" yöntemlerinin başarıya etkisinin karşılaştırılması amacı ile yapıldı. Çalışma, 2002-2003 eğitim-öğretim yılında Ankara, Telekom Anadolu Meslek Lisesinde, 57 lise II. Sınıf öğrencisi üzerinde gerçekleştirildi. Öğretimden önce öğrencileri tanımak, sosyo-ekonomik durumlarını ve bilgisayar destekli öğretime bakış açılarını saptamak amacı ile 10 soruluk bir tanıma anketi ve konu hakkında öğrencilerin ön bilgilerini ölçmek amacı ile bir ön bilgi testi sunuldu. Başarı durumları eş iki lise II sınıfından birine "Geleneksel Anlatım Yöntemi" (Kontrol Grubu), diğerine "Bilgisayar Destekli Öğretim Yöntemi" (Deney Grubu) ile, "Kimyasal Reaksiyonlar ve Çarpışma Teorisi" konusu işlendi. Öğretimden önce ve sonra 15 soruluk kavram testi uygulandı. Sonuçların değerlendirilmesi sonucunda, deney grubunun daha başarılı olduğu saptandı. Başarının cinsiyete bağlı olduğu, deney grubunda erkek, kontrol grubunda kız öğrencilerin daha başarılı olduğu saptandı.
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REFERENCES

References: 

Ausubel, D.
(1968)
. Educational Psyhology A Cognitive View, New York: Holt, Rinehart and Winton.
Burke, K.A., Greenbowe, T.J. and Windschitl, M.A. (1998). Developing and Using
Conceptual Computer Animations for Chemistry Instruction. Journal of
Chemical Education, 75(12), 1658-1661. Cağıltay, K., Aksar, P., Ozgit, A. (1995). Setting up a Computer Mediated
Communication Network for Secondary Schools. INET-95: Hawaii. Gabel, D. L., Samuel, K. V., & Hunn, D. (1987). Understanding the particulate nature
of matter. Journal of Chemical Education, 64, 695-697. Gagne,R. M. (1985). The conditionsof Learning and Theory of Instruction, New
York: Holt, R & Winston
Herron, J. D. (1996). The Chemistry Classroom: Formulas for Succesfull Teaching;
American Society: Washington, DC,. Hunter, M. (1982), Mastering Teaching. El Segundo, California: TIP Publications. Jonassen, D. & Reeves, T. (1996), Learning with Technology: Using Computers as
Cognitive Tools. In D. H. Jonassen 8 (Ed.), Handbook of Research on
Educational Communications and Technology, 693-719. Lynch, M. D. (1997), The Effects of Cognitive Style, Method of Instruction, and Visual
Ability on Learning Chemical Kinetics; P.D. dissertation, Iawo State
University.
Means. B. (1994), Using Technology to Advance Educational Goals. In B. Means ( Ed.), Teachnology and Educational Reform:The Reality Behind the Promise, 1¬22, San Fransisco: Jossey -Bass Publishers.
Nurrenbern, S.
C.
, & Pickering, M. (1987). Concept learning versus problem solving: Is there a difference? Journal of Chemical Education, 64, 508-510.
Peters, H. J., & Daiker, K. C. (1982). Graphics and animation as instructional tools.
Pipeline, 7 , 11-13.
Rosenshine, B.; (1987). Explicit Teaching, D. Berliner,; B. Rosenshine (Eds.) Talks to
Teachers, New York: Rondom House. Slavin, R. E. (1984). Compenent Building: A Strategy for Research Based Instructional
Improvement. Elementary School Journal, 84, 255-269. Sanger, M. J. (1996). Identifying, Attributing and Dispelling Student Misconceptions in
Elektrochemistry, Ph,D. dissertation, Iowa State University,. Sanger, M.J. & Greenbowe, T.J. (1997). Student Misconceptions in Electrochemistry: Current Flow in Electrolyte Solutions and the Salt Bridge. Journal of Chemical Education, 74(7), 819-823.

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