Spanish Science Teacher Educators’ Preparation,Experiences, and Views About Nature of Science in Science Education

Science & Education - The obstacles and difficulties that science teachers face when teaching the nature of science (NOS) are well-known. Nonetheless, little is known of what science teacher...     

Trust in Science and Science Education — Part 1

Science & Education -     

How Do Pre-Service Science Teachers’ Views on Science, Scientists, and Science Teaching Change Over Time in a Science Teacher Training Program?

Every aspect of teaching, including the instructional method, the course content, and the types of assessments, is influenced by teachers’ attitudes and beliefs. Teacher education programs play an important role in the development of beliefs regarding teaching and learning. The purpose of the study was to document pre-service teachers’ views on science, scientists, and science teaching as well as the relations between these views and the offered courses over several years spent in an elementary science teacher training program. The sample consisted of 145 pre-service elementary science teachers who were being trained to teach general science to students in the 6th through 8th grades. The research design was a cross-sectional study. Three different instruments were used to collect the data, namely, the “Draw a Scientist Test”, “Draw a Science Teacher Test”, and “Students’ Views about Science” tests. The elementary science teacher training program influenced pre-service science teachers’ views about science, scientists and science teaching to different degrees. The most pronounced impact of the program was on views about science teaching. Participants’ impressions of science teaching changed from teacher-centered views to student-centered ones. In contrast, participants’ views about scientists and science did not change much. This result could be interpreted as indicating that science teacher training programs do not change views about science and scientists but do change beliefs regarding teaching science.     

Theoretically and Practically Speaking,What is Needed in Diversity and Equity in Science Teaching and Learning?

This article discusses how issues of diversity and equity are addressed in the preparation of science teachers who are charged with teaching diverse students in schools. Highlighting examples from my own teaching and research and other studies in education, I frame this article in terms of a broad application of theory in science teacher preparation to classroom practices in order to address science achievement and equity for diverse students. I also discuss the relevance of my argument for in-service professional development.     

Science,Society and Trends in Science Education‐‐some Thoughts on the Development of Integrated Science in the Educational Systems of the World

Summaries

English

Before constructing a new curriculum for any level in integrated‐science education, it is very important to establish a basic philosophy of science teaching which reflects a symbiotic relationship between education and the socio‐economic development in a particular country of the world.

The curriculum structure of integrated‐science education should broaden the basis of curricular decision and should be designated to follow the expectations of the society in providing professional intellectual training so that education can make a significant contribution to the socio‐economic growth of the country. This basic assumption which established a link between cultural and socio‐economic growth, involves a diversification of the cultural trends of science education which must become appropriate to the economic and historical context of each country in a fast changing world of work.

Therefore, by critically removing outside influences in the transmission of scientific knowledge, there should be less uniformity in the context and methods of teaching, and considerable restructuring of education for each country should occur. Thus, considering the historical and geographical differences, a new order in international division of labour would come into being.

In such a hypothesis, a research‐oriented integrated curriculum in science education can play a central role (certainly a better one than in the traditional, discipline‐oriented scheme of science teaching) in obtaining an adequate interaction between scientific education and social problems; this is required for modern cultural and economic development of the world.     

Teaching and Learning Science in Hungary, 1867–1945: Schools,Personalities, Influences

The article provides an overview of the development of teaching science in Hungary during both the time of the dual monarchy and the newly established independent Hungary after 1920. The integration of Hungary into the Austro-Hungarian Monarchy (1867–1918) strengthened the effect of German speaking European science, the results of which were quickly channelled into the Hungarian school system at all levels. The Hungarian Academy as well as the University of Budapest (today Eötvös Loránd University) played a leading role in the ?nationalization” of European science in the educational system. Scientific developments in Hungary strengthened the position of rational and secular thinking in a highly religious society and contributed to the erosion of the mental power of the church tradition, particularly that of the Roman Catholic Church. Toward World War I, influenced by the Protestant Churches, the Jewish tradition, and agnosticism, the public picture of science became more international, occasionally ready to consider challenges of the accepted world view, and sometimes less dogmatic. Leading Hungarian figures with an international reputation who played a decisive role in making science part of Hungarian thinking included the physicists Baron Loránd Eötvös and Sándor Mikola, the mathematicians László Rácz and George Pólya as well as a host of others in related fields. Emigration, mostly Jewish, after World War I, contributed to the curtailment of efforts to teach science effectively as some of the best people left Hungary for, mostly, Germany, Britain, and the United States. However, the interwar school system, the Hungarian version of the German Gymnasium, continued to disseminate scientific thought in Hungarian education. Much of the information was foreign and appeared simply in translation—but an impressive array of indigeneous scientific results paved the way to a larger educated middle class then in the making.     

Science, Society, and Technology—Three Cultures and Multiple Visions

The article reviews the strikingly divergent viewpoints of intellectuals—scientists and non-scientists—about Science and Technology. It shows that while scientists implicitly accept the difference between Science and Technology, to non-scientists that difference is irrelevant. The most important differences between Science and Technology that lie in their relative scales, outputs and accuracy of predictions are highlighted. The complexity of and difficulty in trying to quantify the contribution of science and technology to economic growth are discussed. Views of science and technology that include their societal perceptions are recommended.     

Why are women underrepresented in Computer Science? Gender differences in stereotypes,self-efficacy,values, and interests and predictors of future CS course-taking and grades

This study addresses why women are underrepresented in Computer Science (CS). Data from 1319 American first-year college students (872 female and 447 male) indicate that gender differences in computer self-efficacy, stereotypes, interests, values, interpersonal orientation, and personality exist. If students had had a positive experience in their first CS course, they had a stronger intention to take another CS course. A subset of 128 students (68 females and 60 males) took a CS course up to one year later. Students who were interested in CS, had high computer self-efficacy, were low in family orientation, low in conscientiousness, and low in openness to experiences were more likely to take CS courses. Furthermore, individuals who were highly conscientious and low in relational-interdependent self-construal earned the highest CS grades. Efforts to improve women’s representation in CS should bear these results in mind.     

Uncovering Malaysian Secondary School Students’ Academic Hardiness in Science,Conceptions of Learning Science,and Science Learning Self-Efficacy: a Structural Equation Modelling Analysis

The objective of this study was to explore the relationships between academic hardiness in science, conceptions of learning science, and science learning self-efficacy among Malaysian middle school students. The respondents were 320 eighth-grade students from two selected Malaysian middle schools. Three questionnaires were used for this survey: Academic Hardiness in Science (AHS) regarding “commitment,” Conceptions of Learning Science (COLS), including “memorizing,” “calculating and practicing,” and “understanding and seeing in a new way,” and Science Learning Self-Efficacy (SLSE), consisting of “cognition,” “practical work,” “everyday application,” and “science communication.” These three questionnaires were validated and found to be reliable for measuring students’ AHS, COLS, and SLSE. Pearson’s correlation findings indicated that AHS was significantly and positively correlated to all the factors in COLS and SLSE, and all the factors in COLS were significantly and positively correlated to all the factors in SLSE. The relationships among AHS, COLS, and SLSE were then identified by the structural equation model technique. Students with a high commitment to learning science, and who perceived learning science as understanding and seeing in a new way are prone to have confidence at all levels of science learning self-efficacy.

     

Girls’ and Boys’ Academic Self-Concept in Science in Single-Sex and Coeducational Classes

Recently, single-sex classes within public coeducational schools have proliferated across the USA; yet, we still know little about whether and how single-sex science classes influence adolescents’ attitude and affect toward science. This exploratory study expands upon our current understanding by investigating the extent in which female and male students’ enrollment in either single-sex or coeducational science classrooms may influence their academic self-concept in science. Utilizing a quasi-experimental research design, findings suggest that being enrolled in single-sex science classrooms influence how students in this study perceive their abilities to perform and learn in science, particularly for females in single-sex science classrooms.     

Translator’s Subjectivity in Science and Technology Translation

Science and technology translation involves various industries and professions,with its own system of terminology and unique language features.For a translator,who is not a professional scientist or technician,it seems to be difficult to do science and technology translation accurately and properly.Consequently,it is necessary for the translator to give play to his subjectivity when translating science and technology documents or related interpretation:searching for related data to replenish necessary professional knowledge,consulting with professional technicians actively to clarify the jargon and common sayings,and thinking critically to scrutiny the source text.     

Academic Freedom,Innovation, and Responsibility: Towards an ‘Ethical GPS’ in Higher Education and Science

In lieu of the usual ‘From the Editors’ piece, Jan Sadlak, Director of UNESCO‐CEPES, and Henryk Ratajczak, Vice‐President of the European Academy of Arts, Sciences and Humanities (EAASH), describe below the scope and highlights of the International Conference on Ethical and Moral Dimensions for Higher Education and Science in Europe, held in Bucharest on 2–5 September 2004. The articles in this issue, some of which are drawn from Conference presentations, are also introduced here.

The Conference was organized by the above two organizations, in collaboration with the United Nations University (UNU) in Tokyo and the Division of Basic and Engineering Sciences of UNESCO in Paris. It took place under the joint high patronage of Mr. Jacques Chirac, President of the French Republic, and Mr. Ion Iliescu, President of Romania, and received further distinction in the form of special messages from Pope John Paul II, HRH Prince El Hassan bin Talal, and Mr. Koïchiro Matsuura, Director‐General of UNESCO. All Conference documents can be accessed on the UNESCO‐CEPES website, ?www.cepes.ro?.     

Decision‐Making in Future Science and Technology Curricula

Summaries

English

In this article, the author argues in favour of a decision‐making orientated science and technology curriculum for secondary school students. To achieve this, the curriculum should (i) expose students to open‐ended problems within their natural setting, (ii) provide students with real decision‐making situations and (iii) involve them in scientific‐technological social actions, e.g. in community institutions or industrial plants.     

Evidence of Science and Engineering Practices in Preservice Secondary Science Teachers’ Instructional Planning

There is a current national emphasis on science, technology, engineering, and mathematics (STEM). Additionally, many states are transitioning to the Next Generation Science Standards (NGSS), which encourage teachers to incorporate engineering in science classrooms as well as have their students learn science by doing science. Methods courses are also shifting to adequately prepare preservice science teachers in these areas. This study examines preservice science teachers’ pre- and post-ideal inquiry-based lesson plan scenarios before and after intervention in their Secondary Science Methods I and II courses. These preservice science teachers participated in a variety of opportunities to practice authentic science inquiry (ASI) pedagogical techniques as well as integrated STEM topics, with a particular emphasis on computer programming throughout their 80 h of Methods instruction. ASI is a type of inquiry where students learn science by conducting science research in a grade-appropriate manner. Thirty-eight preservice teachers’ scenarios were analyzed using a rubric from Spuck (2014) to determine the degree to which the ten components of ASI were included in scenarios pre- to post-instruction. Trends in ASI component inclusion are discussed. These findings indicate that preservice science teachers are proficient at writing inquiry-based lessons where they planned opportunities for their future students to collaborate, use scientific instrumentation, and collect and analyze data, but need additional support with developing student activities where students create testable questions, revise their question and methods, participate in peer review, and disseminate their results to their peers or the larger scientific community. Overall, the results suggest Methods instruction should reinforce preservice teachers’ focus on planning lessons which include opportunities for all ASI components. Interventions in the aforementioned areas of weak inclusion may be beneficial to preservice teachers.     

Indigenous Elementary Students’ Science Instruction in Taiwan: Indigenous Knowledge and Western Science

This preliminary ethnographic investigation focused on how Indigenous traditional wisdom can be incorporated into school science and what students learned as a result. Participants included community elders and knowledge keepers, as well as 4th grade (10-year-old) students, all of Amis ancestry, an Indigenous tribe in Taiwan. The students?? non-Indigenous teacher played a central role in developing a science module ??Measuring Time?? that combined Amis knowledge and Western science knowledge. The study identified two cultural worldview perspectives on time; for example, the place-based cyclical time held by the Amis, and the universal rectilinear time presupposed by scientists. Students?? pre-instructional fragmented concepts from both knowledge systems became more informed and refined through their engagement in ??Measuring Time??. Students?? increased interest and pride in their Amis culture were noted.     

Children’s and Adolescents’ Specific Interest in Science and Technology,Participation in Out-of-School Activities and Inclination to Become Scientists

Journal of Science Education and Technology - Recently, the literature has repeatedly reported an interesting decrease in science and technology (S&T) among youngsters, and a drop of...     

Naïve Empiricism and the Nature of Science in Narratives of Conflict Between Science and Religion

Scientific inquiry is both theoretical and empirical. It succeeds by bringing thought into productive harmony with the observable universe, and thus, students can attain a robust understanding of the nature of science (NOS) only by developing a balanced appreciation of both these dimensions. In this article, I examine naïve empiricism, a teaching pattern that deters understanding of NOS by attributing to observation scientific achievements that have been wrought by a partnership of thought and empirical experience. My more specific concern is the naïve empiricism promoted when teachers illustrate NOS through historical anecdotes about conflict between science and religion. Since the religious actors depicted in such accounts appear to reject evidence, these narratives lead readers to suppose that scientists draw their conclusions in exactly the opposite way, from empiricism alone. I illustrate this pattern by examining two representative treatments of the Copernican revolution. My methods are historical and critical.     

Promoting Shifts in Preservice Science Teachers’ Thinking through Teaching and Action Research in Informal Science Settings

The purpose of this study was to investigate the influence of an integrated experiential learning and action research project on preservice science teachers’ developing ideas about science teaching, learning, and action research itself. The qualitative, interpretive study examined the action research of 10 master’s degree students who were involved in service learning with children in informal education settings. Results indicated that all of the participants enhanced their knowledge of children as diverse learners and the importance of prior knowledge in science learning. In-depth case studies for three of the participants indicated that two developed deeper understandings of science learners and learning. However, one participant was resistant to learning and gained more limited understandings.     

Science and Technology in Greek Newspapers, 1900–1910. Historiographical Reflections and the Role of Journalists for the Public Images of Science and Technology

Based on our research on two Athenian daily newspapers for the first decade of the twentieth century, we present some historiographical reflections concerning the role of the daily press in the circulation of scientific knowledge, ideas and practices. From the wealth of material provided, we examine some of the ways in which scientific and technical knowledge was made available to a wider public and contributed to the creation of a general scientific literacy. Although Greece has never been in the forefront of scientific and technological research, the vast amount of newspaper articles on science and technology, but also references to science and technology in other kind of articles, show how discussions on science and technology become part of daily life in order to serve various agendas. Since newspapers address a very wide and diverse public on a daily basis they become privileged media not only for understanding the role science and technology played in the formation of modern societies, but also for examining the values and ideas attached to them and communicated to a wider public.