ÖĞretmen adaylarinin fiZİK Çalişan biLİM İnsanlarina yöneliK İmajlari: ÖĞretmen eğİTİMİ AÇisindan doğurgulari

Kaynakça

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EK-1 Öğretmen Adaylarının Fizikle İlgilenen Bilim İnsanlarına Yönelik İmajlarını Yansıttıkları Görsel Örnekleri

Kadın Öğretmen Adaylarının Çizimlerine Örnek	Erkek Öğretmen Adaylarının Çizimlerine Örnek

There are diverse new points of view regarding science/physics education generated by existing experimental studies which contravene generally held views constituting the backbone of endeavors intended to raise scientific literacy. Assuming that portrayals of science and scientists rendered by science/physics research are appropriate, then we have profound impacts of this concerning educational objectives that underlie science education, learning experiences and educational instructional goals. In public mind, scientists are usually depicted as white middle-aged men with tousled hair wearing glasses and white coats, working with test tubes in a laboratory. Especially students aged 7-12 have a tendency to believe in such clichés. Moreover, students’ feelings and attitudes regarding science are influenced by their teachers’ emotions and actions and consequently if teachers have a favorable view and attitude with regard to science, then they also impose such views and attitudes on their students. On the other hand, students with teachers who have unfavorable attitudes vis-à-vis science are usually prevented from having an interest in science. The current literature rarely includes studies on clichés about scientists and images in a specific scientific field. In this article images of pre-service teachers concerning physical scientists are revealed in terms of gender.

124 middle-school pre-service physics teachers took part in this study. In this study, we used an instrument based on Chambers’ (1983) Draw a Scientist Test (DAST). It aims to discover students’ images of a physical scientist with regard to gender groups. In this test, students are asked to draw a picture of a scientist by using stick figures and other graphic means. The DAST was adapted for this study and researchers refer to the adapted instrument as Draw a Physical Scientist Test (DAPST). The DAPST was revised by conducting a pilot study on 100 science teachers.

In order to obtain a two-part scoring criterion, Draw a Scientist Test Checklist (DAST-C) developed by Finson et al. (1995) was adapted. The first part of the DAPST checklist included the seven standard images of a scientist as determined by Chambers (1983). On the other hand, alternative images of a physical scientist constituted the second part of the DAPST checklist. The reason why the aforementioned additions were made to the DAPST checklist was that in the pilot tests, they were often encountered in students’ pictures. The images of physical scientists depicting their feelings, workplaces and the quality of the job they did constituted a third category.

According to Miles and Huberman's (1994) formula (total agreements/total codes), inter-coder reliability for the drawings was 0.86. In order to analyze all the participants’ drawings, the DAPST checklist was used by each coder. A set of categories was created from the drawings of the students, each drawing being assigned to a category. Qualitative and quantitative data of DASPT grouped into some identified response patterns. Then, frequencies and percentages of the patterns of those patterns were calculated. In addition, in order to identify whether or not there were gender differences in student images, chi-square analyses were performed.

It is understood from the examination of the drawings in this study that Turkish secondary pre-service physics teachers regard a physical scientist as a combination of the standard image of scientists, alternative images and have other qualities unique to scientists studying physics. One can infer from the findings of this study that middle school pre-service physics teachers still have clichéd images about scientists. For comparison, this study utilized the rank order given in Chamber’s list. There was a difference between the rank order of the indicators and Chamber’s list. The pre-service teachers ranked symbols of knowledge, technology, and symbols of research as the first three indicators in this study. Passage of time can be an explanation for these findings. The study by Chambers was conducted thirty-one years ago. The present century, in other words the 21st century, is described as the period of science and technology. One can see the drawings of pre-service teachers as an association of symbols of knowledge and research and technology with computers. Compared with male pre-service teachers, higher numbers of female pre-service teachers drew scientists in a laboratory environment, not a significant difference, together with research symbols. Similar to the findings of studies conducted in other countries, it was found in this study that Turkish pre-service physics teachers still maintain standard clichés about images of scientists. Moreover, male pre-service teachers drew scientists as male whereas females drew both male and female scientists, which was not surprising. Both male and female students indicated experimentation as the most salient feature of physical scientists in their drawings and statements. Compared with male pre-service teachers, more females drew their scientists as observing, measuring and collecting data whereas more males than females drew their scientists as experimenting and thinking about a research idea.

The findings of this study indicate that despite being educated in the same way, the pre-service teachers belonging to the two sexes have conflicting images of physics scientists in some respects. The inequality in the opportunities provided to the gender groups in and out of schools can be cited as a reason for this difference.

The results obtained as a result of this study have significant implications for institutions offering science/physics education as well as for teachers, curriculum developers, policy makers, and science/c physics teacher preparation and enhancement programs. While setting educational goals and objectives, and designing curriculum content and instructional practice so as to accommodate pre-service teachers’ prior knowledge and personal experiences, their images of scientists can serve as a guide.

The findings of this study may also be relevant to the schools and the community. It is common knowledge that students do not have the same level of educational experiences. In order to meet the educational standards required by the society, all students should be offered equal opportunities by schools and communities irrespective of gender like effective schooling, extracurricular assistance, and additional support systems. Another thing is that both teachers and schools must acknowledge that students from different walks of life come to school and therefore they should provide them with constructive educational experiences, including science-related experiences, compatible with their backgrounds.

We suggest on the basis of the findings of this study that further research should be conducted to explore the connection between students’ images and attitudes toward physics and their subsequent decisions about secondary school science majors and university physics programs.