Feminist contributions to the science curricula in higher education constitute invaluable but often overlooked resources for truly effective communication about science. Here I share a sampling of feminist science studies and discuss the origins of this effort to create inclusive and less biased science curricula that serve all students and citizens. Challenges from scientists center on assumptions and values about the appropriate relationship between science and politics, while challenges from educators extend to assumptions (...) about how science has been taught. Currently, national and local curriculum transformation efforts are producing useful insights and materials. (shrink)

In France, the newly designed life and earth sciences programs for the Première Générale (second year of lycée) now include a segment dedicated to ecosystem services. The primary objective is to transition from an anthropocentric approach to an ecocentric approach, integrating the notion of ecosystem services (ES). Our article conducts an epistemological examination of the ES concept, scrutinizing its definition, the array of examples and services, the human role in the environment, monetization, and connections to environmental ethics. The analysis was (...) conducted using a corpus comprising life and earth sciences curricula, textbooks, and online resources, which unveiled diverse examples and materials pertaining to ES. The ensuing discussion emphasizes the need to embrace uncertainty and complexity in order to transcend a positivist rationalization of the human-nature relationship. (shrink)

Our current Anthropocene epoch is marked by a rampant proliferation of challenging environmental issues. Over the years, researchers have come to recognize these issues as quintessential wicked pro...

There is growing need for hybrid curricula that integrate constructivist methods from Science and Technology Studies (STS) into both engineering and policy courses at the undergraduate and graduate levels. However, institutional and disciplinary barriers have made implementing such curricula difficult at many institutions. While several programs have recently been launched that mix technical training with consideration of “societal” or “ethical issues,” these programs often lack a constructivist element, leaving newly-minted practitioners entering practical fields ill-equipped to unpack the (...) politics of knowledge and technology or engage with skeptical publics. This paper presents a novel format for designing interdisciplinary coursework that combines conceptual content from STS with training in engineering and policy. Courses following this format would ideally be team taught by instructors with advanced training in diverse fields, and hence co-learning between instructors and disciplines is a key element of the format. Several instruments for facilitating both student and instructor collaborative learning are introduced. The format is also designed for versatility: in addition to being adaptable to both technical and policy training environments, topics are modularized around a conceptual core so that issues ranging from biotech to nuclear security can be incorporated to fit programmatic needs and resources. (shrink)

Science has always engaged with the worldviews of societies and cultures. The theme is of particular importance at the present time as many national and provincial education authorities are requiring that students learn about the nature of science (NOS) as well as learning science content knowledge and process skills. NOS topics are being written into national and provincial curricula. Such NOS matters give rise to at least the following questions about science, science teaching and (...) worldviews: -/- What is a worldview? -/- Does science have a worldview? -/- Are there specific ontological, epistemological and ethical prerequisites for the conduct of science? -/- Does science lack a worldview but nevertheless have implications for worldviews? -/- How can scientific worldviews and practice be reconciled with seemingly discordant religious and cultural worldviews? -/- In which ways do the worldviews of students impact on their interest and learning of science? -/- Should science teachers engage with the worldviews of students? -/- In addition to the NOS curricular impetus for refining understanding of science and worldviews, there are also pressing cultural and social forces that give prominence to questions about science, worldviews and education. There is something of an avalanche of popular literature on the subject that teachers and students are variously engaged by. Additionally the modernisation and science-based industrialisation of huge non-Western populations whose traditional religions and beliefs are different from those that have been associated with orthodox science make very pressing the questions of whether, and how, science is committed to and hence promotes particular worldviews and contradicts others. Hopefully this chapter, and others in the section, will contribute to a more informed understanding of the relationship between science, worldviews and education and provide assistance to teachers who are routinely engaged with the subject. (shrink)

ABSTRACT This essay argues that science education can gain from close engagement with the history of science both in the training of prospective vocational scientists and in educating the broader public about the nature of science. First it shows how historicizing science in the classroom can improve the pedagogical experience of science students and might even help them turn into more effective professional practitioners of science. Then it examines how historians of science can (...) support the scientific education of the general public at a time when debates over “intelligent design” are raising major questions over the kind of science that ought to be available to children in their school curricula. It concludes by considering further work that might be undertaken to show how history of science could be of more general educational interest and utility, well beyond the closed academic domains in which historians of science typically operate. (shrink)

If Lipman’s claim that philosophy is the discipline whose central concern is thinking is true, then any attempt to improve students’ scientific critical thinking ought to have a philosophical edge. This chapter explores that position. -/- The first section addresses the extent to which critical thinking is general – applicable to all disciplines – or contextually bound, explores some competing accounts of what critical thinking actually is and considers the extent to which scientific thinking builds on, or is quite different (...) from, generic thinking. Evidence that traditional science education does not teach scientific thinking well leads to the conclusion that some different pedagogical approach needs to be added to science curricula. -/- The second section surveys several approaches to ‘minds-on’ science education, each of which shares an emphasis on the students identifying areas of puzzlement, rigorous discussion of these puzzles, attention to metacognition and opportunities to address thinking across different contexts. -/- Finally, a summary of the main conclusions is followed by consideration of possible objections and suggestions as to further research that could help to clarify and fine-tune the teaching of good scientific thinking in primary and secondary schools. (shrink)

The present study specifically focuses on science teachers’ views about scientific inquiry and their use of scientific inquiry in their lesson plans, which were prepared at a professional development workshop designed for better utilization of science centers (SCs). As an impact evaluation research, qualitative data was collected from 41 purposively selected volunteer science teachers. The project team provided the participants with intense instruction in inquiry, and fostered them to learn nature of science and nature of scientific (...) inquiry explicitly. The participants designed lesson plans that integrate school science curricula with exhibits at SCs before and after the workshop. An open-ended questionnaire about the views about scientific inquiry (VASI) was administered before and after the workshop, and teachers’ post-lesson plans were analyzed to detect the presence of scientific inquiry aspects. The majority of teachers exhibited improved views about scientific inquiry based on the VASI instrument. Also, lesson plan analyses indicated that teachers, who showed more improvement in VASI, included more scientific inquiry (SI) elements in their post-lesson plans. It was observed that science teachers’ lesson plans are limited in terms of teaching science in line with real scientific inquiries in SCs to make students learn about the nature of scientific inquiry while learning science. Only two groups embedded SI properly in the SC-oriented lesson plans, and teachers rather used inquiry-based methods of teaching (e.g., argumentation, predict-observe-explain) and process skills (e.g., questioning, explanations). Accordingly, further studies are suggested to develop a specific pedagogical content knowledge framework for teaching with/in SCs. (shrink)

Designed to help educators address science-related social issues, this publication considers: (1) major challenges associated with science-related social issues; (2) the extent to which these challenges are being met; (3) ways in which educators can improve the education of citizens in science, technology, and social issues; and (4) promising practices that can contribute to building connections between social studies and science curricula. Three challenges outlined in the first of five sections include: (1) informing citizens about (...) complex social issues and decisions, (2) connecting diverse fields of knowledge in school curricula, and (3) resisting antagonists of science and technology. In order to determine the extent to which these challenges are currently being met, the second section examines: goal statements in curriculum reports and major reports in the social studies and the sciences; research findings on student knowledge and attitudes regarding science, technology, and society; and analyses of current curricula and textbooks. The third section describes ways in which "integrative threads" can be used to provide common learning experiences within and between distinct courses in the social studies and sciences. The fourth section presents promising practices that can contribute to this building of connections between social studies and science curricula; the use of "decision trees" and case studies, the use of role play and simulation, and the use of instructional television and microcomputers. Concluding observations in the final section and a bibliography listing over 170 publications conclude the document. (LH). (shrink)

Doing Science + Culture is a groundbreaking book on the cultural study of science, technology and medicine. Outstanding contributors including life and physical scientists, anthropologists, sociologists, literature/communication scholars and historians of science who focus on the analysis of science and scientific discourses within culture: what it means to "do" science. The essays are organized into three broad topics: transnational science and globalization (the movements of people, material resources and knowledges that underwrite scientific practices within (...) and across borders of nation-states and regions); emerging subjects and subjectivities (of research and researchers); and postdisciplinary pedagogies and curricula (the institutional settings of classroom, laboratory, department and academic division). Contributors: Itty Abraham, Anne Balsamo, Karen Barad, Michael M.J. Fischer, Joan H. Fujimura, Scott F. Gilbert, Emily Martin, Jackie Orr, Roddey Reid, Molly Rhodes and Sharon Traweek. (shrink)

This anthology opens new perspectives in the domain of history, philosophy, and science teaching research. Its four sections are: first, science, culture and education; second, the teaching and learning of science; third, curriculum development and justification; and fourth, indoctrination. The first group of essays deal with the neglected topic of science education and the Enlightenment tradition. These essays show that many core commitments of modern science education have their roots in this tradition, and consequently all (...) can benefit from a more informed awareness of its strengths and weaknesses. Other essays address research on leaning and teaching from the perspectives of social epistemology and educational psychology. Included here is the first ever English translation of Ernst Mach’s most influential 1890 paper on ‘The Psychological and Logical Moment in Natural Science Teaching’. This paper launched the influential Machian tradition in education. Other essays address concrete cases of the utilisation of history and philosophy in the development and justification of school science curricula. These are instances of the supportive relation of HPS&ST research to curriculum theorising. Finally, two essays address the topic of Indoctrination in science education; a subject long-discussed in philosophy of education, but inadequately in science education. This book is a timely reminder of why history and philosophy of science are urgently needed to support understanding of science. From major traditions such as the Enlightenment to the tensions around cultural studies of science, the book provides a comprehensive context for the scientific endeavour, drawing on curriculum and instructional examples. Sibel Erduran, University of Oxford, UK The scholarship that each of the authors in this volume offers deepens our understanding of what we teach in science and why that understanding matters. This is an important book exploring a wide set of issues and should be read by anyone with an interest in science or science education. Jonathan Osborne, Stanford University, USA This volume presents new and updated perspectives in the field, such as the Enlightenment Tradition, Cultural Studies, Indoctrination in Science Education, and Nature of Science. Highly recommended. Mansoor Niaz, Universidad de Oriente, Venezuela This volume provides an extremely valuable set of insights into educational issues related to the history and philosophy of science. Michael J Reiss, University College London, UK. (shrink)

Within the Computer Science community, many ethical issues have emerged as significant and critical concerns. Computer ethics is an academic field in its own right and there are unique ethical issues associated with information technology. It encompasses a range of issues and concerns including privacy and agency around personal information, Artificial Intelligence and pervasive technology, the Internet of Things and surveillance applications. As computing technology impacts society at an ever growing pace, there are growing calls for more computer ethics (...) content to be included in Computer Science curricula. In this paper we present the results of a survey that polled faculty from Computer Science and related disciplines about teaching practices for computer ethics at their institutions. The survey was completed by respondents from 61 universities across 23 European countries. Participants were surveyed on whether or not computer ethics is taught to Computer Science students at each institution, the reasons why computer ethics is or is not taught, how computer ethics is taught, the background of staff who teach computer ethics and the scope of computer ethics curricula. This paper presents and discusses the results of the survey. (shrink)

In this article, the author studies the introduction of technology into the science curriculum. He offers a general framework for analyzing technology as artifact, knowledge, and social practice. This framework provides analytical tools to study the implications of technology in general education. The analysis is framed using two events: (a) the current movement of scientific literacy, which now includes technology literacy such as in the case of Project 2061, a science education initiative of the American Association for the (...) Advancement of the Science and (b) international calls for including technology in the school curricula of developing countries. The primary context of this article is the demand of technology education in Guatemala. (shrink)

The advancement in technology has changed the workflow and the role of human translator in recent years. The impact from the trend of technology-mediated translation prompted the ratification of technology literacy as a major competence for modern translators. Consequently, teaching of translation technology including but not limited to Computer-aided Translation and Machine Translation became part of comprehensive curricula for translation training programs. However, in many institutions, the teaching of translation technology was haunted by issues such as: narrow scope of (...) curriculum design, outdated technologies, and unbalance between theories and practices in teaching. The study was the pilot evaluation of a tailored course to foster translation trainees’ knowledge and abilities of data science. The course was designed to be a fundamental step toward sophisticated translation technologies. During the pilot evaluation of the 8-week course, 85 students were recruited as participants. The study adopted a mix-method design by employing a survey to investigate student’s level of satisfaction toward the course and focus group discussion to understand students’ attitudes and perceptions of key aspects of the course. By interpreting the results from statistical analysis of the survey and thematic analysis of the focus group discussion, the course of data science for translators was well received among participants. The evaluation project manifested the feasibility and effectiveness of a translator-oriented data science course. (shrink)

Contributing to the recent debate on whether or not explanations ought to be differentiated from arguments, this article argues that the distinction matters to science education. I articulate the distinction in terms of explanations and arguments having to meet different standards of adequacy. Standards of explanatory adequacy are important because they correspond to what counts as a good explanation in a science classroom, whereas a focus on evidence-based argumentation can obscure such standards of what makes an explanation explanatory. (...) I provide further reasons for the relevance of not conflating explanations with arguments (and having standards of explanatory adequacy in view). First, what guides the adoption of the particular standards of explanatory adequacy that are relevant in a scientific case is the explanatory aim pursued in this context. Apart from explanatory aims being an important aspect of the nature of science, including explanatory aims in classroom instruction also promotes students seeing explanations as more than facts, and engages them in developing explanations as responses to interesting explanatory problems. Second, it is of relevance to science curricula that science aims at intervening in natural processes, not only for technological applications, but also as part of experimental discovery. Not any argument enables intervention in nature, as successful intervention specifically presupposes causal explanations. Students can fruitfully explore in the classroom how an explanatory account suggests different options for intervention. (shrink)

Following recent debate on the relations between philosophy of science and the sciences, we wish to draw attention to some actual ways of training both young philosophers of science and young life scientists and clinicians. First, we recall a successful case of training philosophers of the life sciences in a strictly scientific environment. Second, after a brief review of the reasons why life scientists and clinicians are currently asking for more ethics, more methodology of science, and more (...) philosophy of science in the training of life scientists and clinicians, we present two training models that could spur the discussion on how to meet the requests coming from the scientific community. We argue that in order to reflect on mutual relations between philosophy of science and the sciences and to foster proper interactions, issues regarding the topics considered, the features of educational curricula, and the institutional organizations should be addressed jointly. (shrink)

If any nature of science perspective is to be incorporated in science-related curricula, it is hard to imagine a satisfactory didactic toolkit that neglects the social studies of science, the academic field of study of the institutional structures and networks of science. Knowledge production takes place in a world populated by actors, instruments, and ideas, and various epistemic cultures are responsible for providing the concepts, abstractions, and techniques that slowly trickle down the information pathways to (...) become stabilized in university curricula or ossified in high-school science, losing much of the tacit knowledge along the way that enabled the production of knowledge in the first place. The discussion of the sociology of science and the sociology of scientific knowledge is followed by a short overview of recent approaches in science studies and the studies of expertise. (shrink)

The article focuses on the analysis of curriculum documents from Taiwan to investigate how benchmarks for learning nature of science are positioned in different versions of the science curricula. Following a review of different approaches to the conceptualization of NOS and the role of NOS in promoting scientific literacy, an empirical study is reported to illustrate how the science curriculum documents represent different aspects of NOS. The article uses the family resemblance approach as the account of (...) NOS and adapts it for analysis of the curriculum documents. The FRA defines NOS as cognitive-epistemic and social-institutional systems that serve as constructs of knowledge categories with a high level of interconnectedness. The FRA was used as an analytical tool for investigating two sets of Taiwanese curriculum guidelines published 10 years apart, providing an opportunity to discuss how NOS is addressed in the curriculum reforms. The findings show a shift away from the excessive centralization of the cognitive-epistemic system to a consideration of the social-institutional system. Modifications to the benchmarks are proposed in order to achieve a more holistic and progressive approach to NOS. The article contributes to studies on NOS in science education by illustrating how the FRA can act as a tool for exploring interconnectedness of NOS ideas in the curriculum. (shrink)

In this essay, David Waddington and Noah Weeth Feinstein explore how Dewey's conception of science can help us rethink the way science is done in schools. The authors begin by contrasting a view of science that is implicitly accepted by many scientists and science educators — science as a search for truth — with Dewey's instrumentalist, technological, and nonrealist conception of science. After demonstrating that the search-for-truth conception is closely linked to some ongoing difficulties (...) with science curricula that students find particularly alienating, they then analyze some of the educational opportunities that Dewey's vision opens up. Ultimately, Waddington and Weeth Feinstein argue that Dewey offers a humble and humanistic vision of science and science education practice that captures the power of science by connecting it clearly to everyday human activities and challenges. (shrink)

Research on the nature of science and science education enjoys a longhistory, with its origins in Ernst Mach's work in the late nineteenthcentury and John Dewey's at the beginning of the twentieth century.As early as 1909 the Central Association for Science and MathematicsTeachers published an article – ‘A Consideration of the Principles thatShould Determine the Courses in Biology in Secondary Schools’ – inSchool Science and Mathematics that reflected foundational concernsabout science and how school curricula (...) should be informed by them. Sincethen a large body of literature has developed related to the teaching andlearning about nature of science – see, for example, the Lederman and Meichtry reviews cited below. As well there has been intensephilosophical, historical and philosophical debate about the nature of scienceitself, culminating in the much-publicised ‘Science Wars’ of recent time. Thereferences listed here primarily focus on the empirical research related to thenature of science as an educational goal; along with a few influential philosophicalworks by such authors as Kuhn, Popper, Laudan, Lakatos, and others. Whilenot exhaustive, the list should prove useful to educators, and scholars in otherfields, interested in the nature of science and how its understanding can berealised as a goal of science instruction. The authors welcome correspondenceregarding omissions from the list, and on-going additions that can be made to it. (shrink)

Despite the ubiquity and critical importance of science and technology in international affairs, their role receives insufficient attention in traditional international relations curricula. There is little literature on how the relations between science, technology, economics, politics, law and culture should be taught in an international context. Since it is impossible even for scientists to master all the branches of natural science and engineering that affect public policy, the learning goals of students whose primary training is in (...) the social sciences should be to get some grounding in the natural sciences or engineering, to master basic policy skills, to understand the basic concepts that link science and technology to their broader context, and to gain a respect for the scientific and technological dimensions of the broader issues they are addressing. They also need to cultivate a fearless determination to master what they need to know in order to address policy issues, an open-minded but skeptical attitude towards the views of dueling experts, regardless of whether they agree with their politics, and (for American students) a world-view that goes beyond a strictly U.S. perspective on international events. The Georgetown University program in Science, Technology and International Affairs (STIA) is a unique, multi-disciplinary undergraduate liberal arts program that embodies this approach and could be an example that other institutions of higher learning might adapt to their own requirements. (shrink)

General science literacy contributes to good public decision‐making about technology and medicine. This essay explores the kinds of science literacy currently developed by public education in the United States of America. It argues that current curricula on “science as inquiry” (formerly the “nature of science”) need to be brought up to date with the inclusion of discussion of social epistemological concepts such as trust and scientific authority, scientific disagreement versus science denialism, the role of (...) ideology and bias in scientific research, and the importance of peer review and responsiveness to criticism. (shrink)

Global society is facing formidable current and future problems that threaten the prospects for justice and peace, sustainability, and the well-being of humanity both now and in the future. Many of these problems are related to science and technology and to how they function in the world. If the social responsibility of scientists and engineers implies a duty to safeguard or promote a peaceful, just and sustainable world society, then science and engineering education should empower students to fulfil (...) this responsibility. The contributions to this special issue present European examples of teaching social responsibility to students in science and engineering, and provide examples and discussion of how this teaching can be promoted, and of obstacles that are encountered. Speaking generally, education aimed at preparing future scientists and engineers for social responsibility is presently very limited and seemingly insufficient in view of the enormous ethical and social problems that are associated with current science and technology. Although many social, political and professional organisations have expressed the need for the provision of teaching for social responsibility, important and persistent barriers stand in the way of its sustained development. What is needed are both bottom-up teaching initiatives from individuals or groups of academic teachers, and top-down support to secure appropriate embedding in the university. Often the latter is lacking or inadequate. Educational policies at the national or international level, such as the Bologna agreements in Europe, can be an opportunity for introducing teaching for social responsibility. However, frequently no or only limited positive effect of such policies can be discerned. Existing accreditation and evaluation mechanisms do not guarantee appropriate attention to teaching for social responsibility, because, in their current form, they provide no guarantee that the curricula pay sufficient attention to teaching goals that are desirable for society as a whole. (shrink)

Biophysics has been either an independent discipline or an element of another discipline in the United States, but it has always been recognized as a stand-alone discipline in the People’s Republic of China since 1949. To inquire into this apparent divergence, this paper investigates the formational history of biophysics in China by examining the early institutional history of one of the best-known and prestigious science and technology universities in the PRC, the University of Science and Technology of China. (...) By showing how the university and its biophysics program co-evolved with national priorities from the school’s founding in 1958 to the eve of the Cultural Revolution in 1966, the purpose of this paper is to assess the development of a scientific discipline in the context of national demands and institutional politics. Specific materials for analysis include the school’s admission policies, curricula, students’ dissertations, and research program. To further contextualize the institutional setting of Chinese biophysics, this paper begins with a general history of proto-biophysical institutions in China during the Nationalist-Communist transitional years. This paper could be of interest to historians wanting to know more about the origin of the biophysics profession in China, and in particular how research areas that constitute biophysics changed in tandem with socio-political contingencies. (shrink)

This inaugural handbook documents the distinctive research field that utilizes history and philosophy in investigation of theoretical, curricular and pedagogical issues in the teaching of science and mathematics. It is contributed to by 130 researchers from 30 countries; it provides a logically structured, fully referenced guide to the ways in which science and mathematics education is, informed by the history and philosophy of these disciplines, as well as by the philosophy of education more generally. The first handbook to (...) cover the field, it lays down a much-needed marker of progress to date and provides a platform for informed and coherent future analysis and research of the subject. -/- The publication comes at a time of heightened worldwide concern over the standard of science and mathematics education, attended by fierce debate over how best to reform curricula and enliven student engagement in the subjects There is a growing recognition among educators and policy makers that the learning of science must dovetail with learning about science; this handbook is uniquely positioned as a locus for the discussion. -/- The handbook features sections on pedagogical, theoretical, national, and biographical research, setting the literature of each tradition in its historical context. Each chapter engages in an assessment of the strengths and weakness of the research addressed, and suggests potentially fruitful avenues of future research. A key element of the handbook’s broader analytical framework is its identification and examination of unnoticed philosophical assumptions in science and mathematics research. It reminds readers at a crucial juncture that there has been a long and rich tradition of historical and philosophical engagements with science and mathematics teaching, and that lessons can be learnt from these engagements for the resolution of current theoretical, curricular and pedagogical questions that face teachers and administrators. (shrink)

This paper analyses ethical training in neuroscience curricula at universities in Australia, Canada, Germany, the United States and the United Kingdom. The main findings are that 52 % of all courses have ethical training available, while in 82 % of those cases, the training is mandatory. In terms of specific contents of the teaching, ethical issues about ‘animal subjects and human participation in research’, ‘scientific misconduct’, and ‘treatment of data’ were the most prominent. A special emphasis during the research (...) was placed on the prevalence of dual-use bioethics. In total, only 3 % of all courses mention it in any of their modules. One of the major findings of the survey was the trend towards ‘mainstreaming’ ethics education particularly in the UK, which is to disperse ethics among the various modules within the education instead of relying on a single ethics module. The paper discusses the utility of this approach for science education as well as describes the overall difficulties that course coordinators face when trying to teach ethics based on the responses to the qualitative part to the survey. (shrink)

Despite the increase in marine science curriculum in secondary schools, marine science is not generally required curricula and has been largely deemphasized or ignored in relation to earth science, biology, chemistry, and physics. I call for the integration and implementation of marine science more fully in secondary science education through authentic inquiry practices that foster the development of an erotic relationship with the ocean. Such a relationship can provide an opportunity to develop ocean literacy (...) if that means people who engage can actively participate in making more informed choices and advocate for affected parties and the ocean. I show how Simone de Beauvoir's erotic ethic influences the philosophy of the eroticism of the ocean, which is integral in the investigation and promotion of erotic generosities in science education, and using this theory to develop some educational implications for marine science within science education. Ultimately, I argue that the development and nurturing of an erotic ethic in the science education classroom is a valuable way to promote moral and ethical thinking such that students can afford nature, and more specifically in this article, the ocean, equivalent moral considerations in our community and science education. (shrink)

The article aims to shed light on teaching the Arabic language in non¬-Arab countries, especially since the Arabic language it is the main gateway to learning the Qur’an and its sciences, the current reading also aspires of the Arabic language and the reality if its teaching methods to non Arabic speakers, and the obstacles the prevent the educational process from being achieved. The article also shows the role of reading in teaching the Arabic language to non-native speakers, reading is on (...) one of transferring knowledge, and reading enriches perceptions and expands knowledge and information, The current reading aspires to know the different types of reading, as each has characteristics that differ from the others, Therefore, knowing the types of reading and methods of teaching them contributes to the status of teaching Arabic as a foreign language, and constitutes a means to understand and communicate it correctly and soundly.The work was divided into axes. In the first axis, the research will reveal the status of the Arabic language, whether for its speakers or for non-native speakers，It gained this status from being the language of the Qur’an, In addition to the fact that it contributes to the throne of languages by speaking them and using them to understand religious, economic, cultural and commercial matters.The second axis will focus on the meaning of teaching the Arabic language to non-native speakers, and teaching it by transmitting it to them by helping another individual to communicate with it and learn it as a second language.Then, the reality of Arabic language teaching curricula and the problems they face were discussed. Especially with the presence of a large number of these curricula, with their different plan, method, and time duration, the teacher here finds himself faced with confusion in choosing the appropriate curriculum for the group - non-Arabic speakers - he is entrusted with teaching, and which suits their abilities and intellectual inclinations.The article also shows that there are good curricula that have been highly successful in delivering and transferring the academic content to the learner. This is due to its respect for a set of pedagogical rules and controls and the hierarchy of the curriculum. The clearer the curriculum is and built on specific foundations and elements, the more effective and profitable it is.There is no doubt that it is not possible to download and teach any educational curriculum without a teacher who has several scientific methods and skills. That is, he must have a set of skills and be armed with a variety of methods in teaching the Arabic language to non-native speakers. Something that contributes to the success of the educational process.A good professor is one who diversifies his methods while teaching non-Arabic speaking students. Therefore, the article aims to pay attention to the teacher and train him according to certain basics, including the cultural basis of the country in which he will study, and the cognitive and professional basis. The research also recommended the need to hold training courses and workshops to train teachers of the Arabic language to non-native speakers.The research has confirmed that reading has an important and fundamental role in teaching the Arabic language to non-native speakers, and that this skill contributes to providing the learner with a large linguistic resource, as well as benefiting from the depths of Arabic books, and also helps in improving the level of pronunciation and communication with a good master of the Arabic language.The article also explains that teaching the Arabic language to non-native speakers suffers from several obstacles and obstacles that prevent achieving the goal of the educational learning process, including reading weakness among learners, especially at the level of pronunciation, in addition to inversion, substitution, and lack of distinction between similar sounds in pronunciation.The current reading shows that despite these problems and obstacles; However, the experiences related to teaching the Arabic language to non-native speakers are moving in the right direction.The article relied on the descriptive and analytical approach. To describe and analyze the phenomenon of teaching the Arabic language to non-native speakers, with the need to point out that the proposed reading is not final and does not claim to have the final say or possess the “truth”, as long as it is one among other possible readings. (shrink)

Research ethics training during post-graduate education is necessary to improve ethical standards in the design and conduct of biomedical research. We studied quality and quantity of research ethics training in the curricula of post-graduate programs in the medical science in I.R. Iran. We evaluated curricula of 125 post-graduate programs in medical sciences in I.R. Iran. We qualitatively studied the curricula by education level, including the Master and PhD degrees and analyzed the contents and the amount of (...) teaching allocated for ethics training in each curriculum. We found no research ethics training in 72 of the programs. Among the 53 programs that considered research ethics training, only 17 programs had specific courses for research ethics and eight of them had detailed topics on their courses. The research ethics training was optional in 25% and mandatory in 76% of the programs. Post-graduate studies that were approved in the more recent years had more attention to the research ethics training. Research ethics training was neglected in most of the medical post-graduate programs. We suggest including sufficient amount of mandatory research ethics training in Master and PhD programs in I.R. Iran. Further research about quality of research ethics training and implementation of curricula in the biomedical institutions is warranted. (shrink)

Purpose As data-driven tools increasingly shape our life and tech ethics crises become strikingly frequent, data ethics coursework is urgently needed. The purpose of this study is to map the field of data ethics curricula, tracking relations between courses, instructors, texts and writers, and present a proof-of-concept interactive website for exploring these relations. This method is designed to be used in curricular research and development and provides multiple vantage points on this multidisciplinary field. Design/methodology/approach The authors use data (...) class='Hi'>science methods to foster insights about the field of data ethics education and literature. The authors present a semantic, linked open data graph in the Resource Description Framework, along with proof-of-concept analyses and an exploratory website. Its framework is open-source and language-agnostic, providing the seed for future contributions of code, syllabi and resources from the global data ethics community. Findings This method provides a convenient means of exploring an overview of the field of data ethics’ social and textual relations. For educators designing or refining a course, the authors provide a method for curricular introspection and discovery of transdisciplinary curricula. Research limitations/implications The syllabi the authors have collected are self-selected and represent only a subset of the field. Furthermore, this method exclusively represents a course’s assigned literature rather than a holistic view of what courses teach. The authors present a prototype rather than a finished product. Originality/value This curricular survey provides a new way of modeling a field of study, using existing ontologies to organize graph data into a comprehensible overview. This framework may be repurposed to map the institutional knowledge structures of other disciplines, as well. (shrink)

Interdisciplinary courses on science, engineering and society have been successfully established in two cases, at Bilkent University, Ankara, Turkey, and at the University of Hamburg, Germany. In both cases there were institutional and perceptual barriers that had to be overcome in the primarily disciplinary departments. The ingredients of success included a clear vision of interdisciplinary themes and didactics, and the exploitation of institutional opportunities. Haldun M. Ozaktas in Ankara used the dynamics of an accreditation process to establish courses on (...) engineering and society. At the University of Hamburg the introduction of optional courses into all curricula allowed for the establishment of a seminar series on physics and society, as well as on peace education and peace building. Both of these approaches have a weakness in common: the courses can disappear once their initiators have left, unless the interdisciplinary themes are integrated into compulsory core curricula. (shrink)

It can certainly be said that history of science has experienced a large growth in recent decades in Spain. This has occurred despite the generic term ‘history of science’ covering activities of a very varied nature and lacking an intimate relation between each other, in research as well as instruction. At present the number of publications which could fit into the frame of this branch of learning has increased remarkably and commercial publishing houses have opened their editorial lists (...) to the publication of classics as well as to monographs on the history of science. Moreover, new specialized journals on these subjects have become popular and have joined the small number of journals which already had a certain tradition. The number of participants in the periodical congresses of the Sociedad Española de Historia de las Ciencias y de las Técnicas [SEHCYT] has risen and the number of congresses and symposia that have been held in Spain and have assembled Spanish as well as foreign historians has also increased. As another recent promising detail, we could quote the presence of history of science in the curricula of Spanish university programmes, a presence that tends to increase progressively. (shrink)

In order to raise awareness of the ambiguous nature of scientific-technological progress, and of the challenging problems it raises, problems which are not easily addressed by courses in a single discipline and cannot be projected onto disciplinary curricula, Technical University of Darmstadt has established three interdisciplinary study concentrations: “Technology and International Development”, “Environmental Sciences”, and “Sustainable Shaping of Technology and Science”. These three programmes seek to overcome the limitations of strictly disciplinary research and teaching by developing an integrated, (...) problem-oriented approach. For example, one course considers fundamental nuclear dilemmas and uses role-playing techniques to address a controversy in the area of nuclear security. At the same time, incorporating interdisciplinary teaching into a university that is organized around mono- or multi-disciplinary faculties also poses a number of challenges. Recognition in disciplinary curricula, and appropriate organizational support and funding are examples of those challenges. It is expected that science and engineering students, empowered by such interdisciplinary study programmes, will be better prepared to act responsibly with regard to scientific and technological challenges. (shrink)

Science inevitably involves ethical discussions about how research should be implemented. However such discussions often neglect the potential unethical treatment of a third party: the research assistant. Extensive anecdotal evidence suggests that research assistants can experience unique physical, psychological, and social risks when implementing their typical responsibilities. Moreover, these research assistants, who perhaps engage in research experience to bolster their curricula vitae, may feel coerced to continue to work in unsafe environments out of fear of losing rapport with (...) the research supervisor or letters of recommendation for their future endeavors. In the present article, we address two important issues regarding the ethical treatment of research assistants. First, we present evidence suggesting that research assistants may experience substantive risk when implementing their assigned responsibilities. Second, we propose a document, the "Research Assistant's Bill of Rights," as a possible ethics code for people supervising research assistants. This document is independent from typical institutional review board processes, and it has the potential to maximize benefits to research supervisors and research assistants. (shrink)

Feminist educators and theorists are stretching the boundaries of what it means to do religion and science. They are also expanding the theoretical and practical frameworks through which we might present curricula in thosefields. In this paper, I reflect on the implications of feminist pedagogies for the interdisciplinary field of religion and science. I begin with a brief discussion of feminist approaches to education and the nature of the feminist classroom as a setting for action. Next, I (...) present some theoretical and practical issues to consider when developing a feminist praxis and an antisexist curriculum. This leads into a discussion of the role of language and critical reflection in the religion and science classroom, the risks associated with reflective discourse, and considerations in the use of ‘feminist’ teaching tools such as small group work, journals, and portfolio assessment. Iconclude with a reflection on how feminist pedagogy promotes an epistemology that speaks to the hearts and minds of participants in the dialogue of religion and science. (shrink)

In Spain before the 1990s there was no clear and explicit comprehensive training for future engineers with regard to social responsibility and social commitment. Following the Spanish university curricular reform, which began in the early 1990s, a number of optional subjects became available to students, concerning science, technology and society (STS), international cooperation, the environment and sustainability. The latest redefinition of the Spanish curriculum in line with the Bologna agreements has reduced the number of non-obligatory subjects, but could lead (...) to improving preparation for social responsibility due to the requirement that the design of curricula and the assessment of students should be based on competencies, some of which include human values and attitudes. (shrink)

Background: Attention to patients’ spirituality, as a moral obligation of care, is now widely accepted in nursing practice. However, until recently, many nursing programs have paid little attention to spirituality. Objective: The objective of this study was to identify the impact of two different curricula, used to teach undergraduate nursing students, on increasing nursing student awareness of spirituality in the care of patients. Research design: A quasi-experimental post-intervention two-group design was conducted in 2009–2010 and 2010–2011 academic years. Participants and (...) research context: The study included a total of 130 volunteer senior-year students. The students were assigned as “the intervention group/integrated system” that were informed about spirituality or as “the control group/traditional system” that received no information on spirituality. Data were collected via a personal information form and the Spirituality and Spiritual Care Rating Scale was used to assess responses. The study was conducted at the Department of Nursing of the Faculty of Health Sciences, Cumhuriyet University, in Central Anatolia/Turkey. Ethical considerations: Permission to conduct the study at the nursing school was obtained from the schools’ management teams. The rights of the participants were protected in this study by obtaining informed consent. Findings: The results revealed that the intervention group had a higher mean score on the Spirituality and Spiritual Care Rating Scale than did the control group. The students in the intervention group defined the terms of spirituality and spiritual care more accurately than did the control group students. Discussion: Nurses are professionally and ethically responsible for providing spiritual care. Nurses’ competence in meeting the spiritual needs of their patients should be improved by undergraduate education on spiritual care. Nursing scholars reported a significant difference in the knowledge and attitudes toward spirituality of nursing students as a result of the integration of spirituality into the undergraduate nursing curriculum. Conclusion: Spirituality should be more widely included in nursing education. (shrink)

Inclusion of the humanities in undergraduate medicine curricula remains controversial. Skeptics have placed the burden of proof of effectiveness upon the shoulders of advocates, but this may lead to pursuing measurement of the immeasurable, deflecting attention away from the more pressing task of defining what we mean by the humanities in medicine. While humanities input can offer a fundamental critical counterweight to a potentially reductive biomedical science education, a new wave of thinking suggests that the kinds of arts (...) and humanities currently used in medical education are neither radical nor critical enough to have a deep effect on students’ learning and may need to be reformulated. The humanities can certainly educate for tolerance of ambiguity as a basis to learning democratic habits for contemporary team-based clinical work. William Empson’s ‘seven types of ambiguity’ model for analyzing poetry is transposed to medical education to: (a) formulate seven values proffered by the humanities for improving medical education; (b) offer seven ways of measuring impact of medical humanities provision, thereby reducing ambiguity; and (c) --as a counterweight to (b) – celebrate seven types of ambiguity in contemporary medical humanities that critically reconsider issues of proof of impact. (shrink)

It is thirty years since the last major reforms of science education. many believe that it is time for reappraisal of these earlier curricula, and for the renewal of science education-its content, aims, methods. also, and importantly, there is a renewed interest in the preparation of science teachers. this essay is a contribution to that task.

Bas van Fraassen's anti-realist account of science has played a major role in shaping recent philosophy of science. His constructive empiricism, in particular, has been widely discussed and criticized in the journal literature and is a standard topic in philosophy of science course curricula. Other aspects of his empiricism are less well known, including his empiricist account of scientific laws, his relatively recent re-evaluation of what it is to be an empiricist, and his empiricist structuralism. This (...) essay attempts to provide an overview of these diverse aspects of van Fraassen's empiricism and to show how they relate to one another. It also focuses on the nature of van Fraassens's epistemic voluntarism and its relationship to his empiricist philosophy of science. (shrink)

Our goal in this article is to provide research-based strategies for embedding Nature of Science into science instruction at the elementary level. We thus intend to aid researchers, professional developers, and teachers in noting that not only is it important and possible to teach NOS at the elementary levels, but also that elementary students can learn ideas about NOS. The manuscript reviews research from the past two decades on what students of ages 5 to 12 understand about NOS (...) after appropriate instruction. Research-based teaching strategies are then shared to provide methods for researchers, professional developers, and teachers to improve students’ NOS understandings. These strategies include embedding NOS into existing curricula, using classroom interactions, using visual representations, and using students’ written work. (shrink)