This paper presents a study focusing on differences in Israeli Jewish and Arab chemistry teachers' beliefs regarding teaching and learning of chemistry in the upper secondary schools. Israel is a country experiencing the problems of diverse cultural orientation of its inhabitants but applying the same educational system to its diverse cultural sectors. Education includes the same curriculum in chemistry for both the Israeli Jewish and Arab cultural sectors as well as final examinations (matriculation) set centrally by the Ministry of Education. Thus, this study can serve as a striking case for other countries facing similar cultural diversity. The study is based on two different instruments that are both qualitative and quantitative in nature. The qualitative data stem from chemistry teachers' drawings of themselves as teachers in a typical classroom situation accompanied by four open questions. The data analysis follows three qualitative scales: beliefs about classroom organization, beliefs about teaching objectives and epistemological beliefs. A quantitative study gives insights into teachers' beliefs about what characterizes good education. The main goal of the present paper is to determine whether both groups of chemistry teachers with different sociocultural background in Israel hold different views about education in general and chemistry education in particular. The findings provide evidence that in Israeli chemistry classrooms, the beliefs of Arabic teachers differ from those of the Jewish teachers, although both groups live in the same country and operate the same educational system.
In order to cope with complex issues in the science-technologyenvironment-society context, one must develop students' high-order learning skills, such as question-asking ability (QAA), critical thinking, evaluative thinking, decisionmaking, and problem-solving capabilities within science education. In this study, we are concerned with evaluating the effect of student-teacher interaction-which is regulated by culture and traditions-on the QAA in science classroom in general and, specifically in our case, in chemistry laboratory classroom. We take Arab and Jewish sectors that are according to the literature different in their culture and tradition, as a model for our investigation. Specially developed and validated tools, including a novel practical test and an adapted article followed by a questionnaire for evaluating QAA, were administered to the research student population, and the responses were analyzed quantitatively. Observations were conducted in order to better understand the quantitative results that we got. Our findings indicate that there was a difference in the QAA between the 2 sectors. According to our findings, we assume that cultures, tradition, norms, social structure, modes of living, and related factors play a significant role as far as the development of students' QAA and apparently any intended attempt targeting the QAA paradigm shift must take into consideration the multicultural context within which it is to be implemented.
Over a period of more than 60 years, the chemistry laboratory has been extensively and comprehensively researched and hundreds of research papers, reviews, and doctoral dissertations have been published, investigating the laboratory as a unique learning environment. However, there were challenges and pedagogical questions regarding its educational effectiveness and benefits for teaching and learning chemistry. At the beginning of the 21 st century there was a call to rethink (and research) the goals for learning chemistry in the laboratory. This is especially applicable in an era in which we are trying to enhance the goal of teaching "chemistry for all students" and/or for the benefit of what is fondly called "future citizens". Working for more than 15 years with colleagues and students, we researched the potential of establishing an inquiry-type chemistry laboratory for developing high-order learning skills, namely, skills for the future or skills for life, including metacognitive and argumentative skills, and the ability of students to ask relevant questions resulting from an inquiry-type chemistry laboratory.
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