History, Philosophy and Science Teaching argues that science teaching and science teacher education can be improved if teachers know something of the history and philosophy of science and if these topics are included in the science curriculum. The history and philosophy of science have important roles in many of the theoretical issues that science educators need to address: the goals of science education; what constitutes an appropriate science curriculum for (...) all students; how science should be taught in traditional cultures; what integrated science is; how scientific literacy can be promoted; and the conflict which can occur between science curriculum and deep-seated religious or cultural values and knowledge. In part, answers to these questions hinge on views about the nature of science, views that are best informed by historical and philosophical study. Outlining the history of liberal, or contextual, approaches to the teaching of science, Michael Matthews elaborates contemporary curriculum developments that explicitly address questions about the nature and the history of science. He provides examples of classroom teaching and develops useful arguments on constructivism, multicultural science education and teacher education. The book will appeal to school and university science teachers, educators of science teachers, and historians and philosophers of science. (shrink)

Integrative Bioethics engages in descriptive and normative fields, or in two cultures, as Snow puts it in The Two Cultures and the Scientific Revolution, announcing though, in his later writings the emergence of a third culture that can mediate between the two. Thomas Kuhn in The Structure of Scientific Revolutions exposes the practice of a new paradigm of the teaching of history describing in fact the relation of science and humanities in the positivist era. The long standing reasons-causes (...) debate that lay the groundwork of the implied incompatibility of the two cultures, as it reflects on the Collingwoodian anti-causalism of the philosophy of history, against Davidsonian causalism, may elucidate the problem of the ‘marriage’ of cultures. Taking a look on Collingwood’s absolute presuppositions and Carnap’s external to linguistic frameworks questions, will help us investigate the possibility of a coherent framework for integrated Bioethics. Can we frame a transdisciplinary field, where science and humanities as collaborating social practices, or as a new ‘cultural policy’, will abstain from normative violence against each other? (shrink)

With the goal of understanding how Christopher Southgate communicates his in-depth knowledge of both science and theology, we investigated the many roles he assumes as a teacher. We settled upon wide-ranging topics that all intertwine: (1) his roles as author and coordinating editor of a premier textbook on science and theology, now in its third edition; (2) his oral presentations worldwide, including plenaries, workshops, and short courses; and (3) the team teaching approach itself, which is often needed (...) by others because the knowledge of science and theology do not always reside in the same person. Southgate provides, whenever possible, teaching contexts that involve students in experiential learning, where they actively participate with other students.We conclude that Southgate’s ultimate goal is to teach students how to reconcile science and theology in their values and beliefs, so that they can take advantage of both forms of rational thinking in their own personal and professional lives. The co-authors consider several examples of models that have been successfully used by people in various fields to integrate science and religion. (shrink)

Training in scientific integrity continues to be an important topic in universities and other research institutions. Its main goal is to prevent scientific misconduct and promote good scientific practice. However, there is still no consensus on how scientific integrity should be taught. Moreover, the perspective of those who receive such training is often underrepresented. Yet it is precisely their interests and needs that must be considered when developing educational programs. Against this backdrop, we conducted a mixed-methods study with the goal (...) of capturing students’ perspectives on the teaching of scientific integrity. Using our online Scientific Integrity course, we explore what specific aspects of digital teaching on scientific integrity are valued, and explore other topics of interest from students’ perspectives on scientific integrity. The article presents (1) students’ self-assessment before (Q1) and after (Q2) taking the online Scientific Integrity course at the RWTH Aachen University in Germany (2) students’ feedback on the course format, video, exam, organization, and support (Q2) (3) a list of other topics of interest in the area of scientific integrity (Q2). The research outcomes demonstrate an improvement in the study participants’ self-assessment after following the online course and there is a general satisfaction among the students in regard to the course digital format and its components although a desire to have more exchange and discussion was expressed. Further topics of interest in the area of scientific integrity that study participants would like to learn about have a practical appeal and among others include research pressure, examples of applications, preventive measures, theory of science, citation rules, funding of university research. Although the results relate to our course, they provide insight into students’ perspectives on online teaching of scientific integrity. Thus, they may be helpful to higher education institutions developing online courses on scientific integrity that are tailored to university students. (shrink)

Ethics in science is integrated into an interdisciplinary science course called “Science, Technology and Society” (STS). This paper focuses on the section of the course called “Societal Impact on Science and Technology”, which includes the topics Misconduct in Science, Scientific Freedom and Responsibility, and the Use of Human Subjects in Research. Students in the course become aware not only of the science itself, but also of the process of science, some aspects of (...) the history of science, the social responsibilities of scientists, and the ethical issues in science. Teaching techniques include the instructor sharing experiences as a scientist with the students, sharing books and resources with students, utilizing current sources of information like the weekly “Science Times”, inviting guest speakers, and utilizing portfolios to assess student learning. (shrink)

While calls to integrate ethics into computer science education go back decades, recent high-profile ethical failures related to computing technology by large technology companies, governments, and academic institutions have accelerated the adoption of computer ethics education at all levels of instruction. Discussions of how to integrate ethics into existing computer science programmes often focus on the structure of the intervention—embedded modules or dedicated courses, humanists or computer scientists as ethics instructors—or on the specific content to be included—lists of (...) case studies and essential topics to cover. While proponents of computer ethics education often emphasize the importance of closely connecting ethical and technical content in these initiatives, most do not reflect in depth on the variety of ways in which the disciplines can be combined. In this paper, I deploy a framework from cross- disciplinary studies that categorizes academic projects that work across disciplines as multidisciplinary, interdisciplinary, or transdisciplinary, depending on the degree of integration. When applied to computer ethics education, this framework is orthogonal to the structure and content of the initiative, as I illustrate using examples of dedicated ethics courses and embedded modules. It therefore highlights additional features of cross-disciplinary teaching that need to be considered when planning a computer ethics programme. I argue that computer ethics education should aim to be at least interdisciplinary—multidisciplinary initiatives are less aligned with the pedagogical aims of computer ethics—and that computer ethics educators should experiment with fully transdisciplinary education that could transform computer science as a whole for the better. (shrink)

Examination of a limited number of publisher’s Instructions for Authors, guidelines from two scientific societies, and the widely accepted policy document of the International Committee of Medical Journal Editors (ICMJE) provided useful information on authorship practices. Three of five journals examined (Nature, Science, and the Proceedings of the National Academy of Sciences) publish papers across a variety of disciplines. One is broadly focused on topics in medical research (New England Journal of Medicine) and one publishes research reports in a (...) single discipline (Journal of Bacteriology). Similar elements of publication policy and accepted practices were found across the policies of these journals articulated in their Instructions for Authors. A number of these same elements were found in the professional society guidelines of the Society for Neuroscience and the American Chemical Society, as well as the ICMJE Uniform Requirements for Manuscripts Submitted to Biomedical Journals. Taken together, these sources provide the basis for articulating best practices in authorship in scientific research. Emerging from this material is a definition of authorship, as well as policy statements on duplicative publication, conflict of interest disclosure, electronic access, data sharing, digital image integrity, and research requiring subjects’ protection, including prior registration of clinical trials. These common elements provide a foundation for teaching about scientific authorship and publication practices across biomedical and life sciences disciplines. (shrink)

Many philosophers of science think scientific practice can benefit from philosophical concepts, and as such philosophy of science should play a direct role in science and engineering education. In this paper we consider a highly integrative course design strategy for integrating philosophy of science in specific disciplinary educational programmes through adaptation, operationalization and embedding of philosophy of science material to fit both the scientific and educational structure of a programme. The goal of the strategy is (...) to help encourage students to recognize the value of philosophical concepts to scientific decision making and to apply them in their own scientific practice. We use the example of a 7.5 ECTS civil engineering course which implements this design at a European technical university, to elaborate these concepts, and present some evidence on how students receive the course. We discuss some of challenges and limitations of implementing this kind of strategy for teaching philosophy of science. (shrink)

At a conference, two engineering professors and a philosophy professor discussed the teaching of ethics in engineering and computer science. The panelists considered the integration of material on ethics into technical courses, the role of ethical theory in teaching applied ethics, the relationship between cases and codes of ethics, the enlisting of support of engineering faculty, the background needed to teach ethics, and the assessment of student outcomes. Several audience members contributed comments, particularly on teaching ethical (...) theory and on student assessment. (shrink)

The Medical School for International Health was created in 1996 by the Faculty of Health Sciences at Ben-Gurion University of the Negev in affiliation with Columbia University’s Health Sciences division. It is accredited by the New York State Board of Education. Students complete the first three years of the program on the Ben-Gurion University campus in Be’er-Sheva, Israel, while fourth-year electives are completed mainly in the United States along with a two-month global health elective at one of numerous sites located (...) around the world . The unique four-year, American-style curriculum is designed not only to prepare physicians who will be able to work at both an individual and community level but also at both of these levels anywhere in the world. In this way, it combines elements of medical and public health curricula not limited to an American perspective. (shrink)

This article discusses experiences in the integrated teaching of Environmental Studies and Science Studies in a generalist curriculum at a university campus in Scotland. At the University of Glasgow Crichton Campus, a mixed curriculum has been developed to combine coherently Environmental and Science Studies, perhaps the first such curriculum in the UK and equally uncommon in America. The Crichton curricum is intentionally multi-disciplinary, drawing closely on the successful nineteenth-century Scottish model exported to America. This generalist approach, (...) emphasising broad philosophical principles, informs the courses and their inter-relationships. (shrink)

U radu se prikazuju rezultati istraživanja o korištenju pametne ploče u nastavi Prirode i društva te stavova učitelja o uporabi informacijske i komunikacijske tehnologije u podučavanju tih nastavnih sadržaja. Istraživanje je provedeno putem online upitnika koji je bio poslan u škole u Hrvatskoj tijekom školske godine 2015/2016. Ukupno 104 učitelja iskazalo je svoje stavove: 65 učitelja iz škola bez pametne ploče, a 39 iz škola u kojima koriste pametnu ploču. Rezultati ukazuju na češću uporabu IKT u školama s pametnom pločom (...) u usporedbi sa školama bez nje. Učitelji pametnu ploču i računala najčešće koriste jednom do dva puta tjedno, a DVD jednom tjedno. Rezultati također pokazuju pozitivne stavove učitelja o uporabi tehnologije za povećanje motivacije učenika i njihovih postignuća. Nalazi istraživanja ukazuju na kontinuiranu edukaciju usmjerenu na rad s pametnom pločom te tehničku podršku kao ključne za inovativnu nastavu. Buduća istraživanja trebala bi analizirati korištenje tehnologije u svim školama u Republici Hrvatskoj. (shrink)

Working from an integration of Michael Polanyi‘s image of learning as self-destruction and Max Weber’s analysis of the ethics of scholarship, the author explores the implications of Polanyi’s argument concerning “the depth to which the... person is involved even in... an elementary heuristic effort”. In the process, the author raises questions about current expectations concerning faculty “performance” and current methods of assessing faculty success in the classroom.

Among many contemporary challenges faced by our society is the moral and ethical education of new generations. Young students bring to school a variety of cultural (including religious) backgrounds and worldviews, not rarely of very heterogeneous and conflicting nature. In spite of the secular nature of Brazilian public education system, Federal Constitution of 1988 and the Law of Directives and Bases of National Education (issued in 1996) allow religious education to be offered in public schools. Therefore, religious education is nowadays (...) offered in many schools, spreaded around a country marked by extensive social, economical, ethnical and cultural diversity. A number of researches point to emerging issues of religious nature that are now present in classrooms of many school disciplines -among them, Biology. Article number 205 of Brazilian Federal Constitution reads that education is a right that assists to all, no matter which race, social class or religious affiliation, so that citizens' full development is a primordial objective of education, followed by preparation for the practice of citizenship and work qualification. Schools must be formal spaces for teaching, according to strong and universal ethical principles such as: equality, freedom for learning, pluralism of ideas, and investigating and disseminating art and knowledge, among others. It is a State duty, therefore, to promote and stimulate education with the collaboration of society. As Federal Constitution also reads that each family has this responsibility with children too, it is a matter of concern that, in last years, social and economical factors are forcing families to transfer these duties to schools and teachers. In schools, a number of Biology contents may bring up students' beliefs and worldviews impregnated of common sense, and also feelings of religiosity. These emergent elements may have a significant value for enriching pedagogical interactions, either with discussions about social and cultural plurality, or with challenging or even disrupting educational situations, in which conflicts and oppositions will be brought up as a result of diversity of opinions and views. It is our position that these are two possible ways that can be followed by a teacher, depending on his/her methodological direction and ethical position. We also understand that each teacher, especially Biology teachers working in secondary education, should welcome these discussions in classroom, organizing opportunities for ethical debates, including issues of religious nature, this way presenting scientific concepts of biological phenomena, but also respecting students' cultural and religious values. In official documents that guide the Biology teaching in basic Brazilian education -the directives, the directions and the national parameters -contents such as Ecology and Evolution play a central role due to their integrational power. However, Biology teachers often face a number of difficulties when trying to follow these directives. Problems in their own education, the reductionist and highly content-based nature of Biology education, as well as severe material restrictions for teachers' work in schools are some of the difficulties that may account for this situation. In spite of these difficulties, issues such as abortion, euthanasia, drugs, sexuality, Biological Evolution (BE) and origin of living beings always bring, in classroom, controversial questions that must be part of every teacher's pedagogical practice. Teaching BE has always raised a number of polemical issues, followed by deep conceptual and ethical implications. Therefore, any contribution aimed at helping its approach as a necessary content in Biology teaching is welcomed. This paper aims at showing some of the conditions, attitudes and arguments that may be useful for the teaching of BE. Among them, we point to nonoverlapping magisteria (NOMA) principle, an ethical and methodological principle proposed in 1997 by palaeontologist Stephen Jay Gould. We understand that Gould's principle offers conditions and opportunities to develop what Brazilian educator Paulo Freire calls a dialogical, libertarian and dialectic education, and this paper will follow his educational perspective. Basically, NOMA principle states that both religion and science have their own separate domain. These separate domains should be respected, avoiding their overlapping in issues concerned with each of them separately. However, there are themes, as mentioned above, in which it is possible to identify elements for each of those domains. Biology teachers must then have a very clear view of the differences between explanations offered by each of these domains, when working with their students about contentious issues such as BE. Freire, when describing the necessary elements for educational practice, points that the act of teaching demands both ethics and corporification of words through practice. Opposing his view to simple Puritanism principles, he states that educational practices should be rigorous evidences of decency and purity. Freire also states that, as an act of respect towards any human being, school contents shouldn't be taught without respect to students' moral education. Therefore, according to Freire, to think "right" means to act "right". For Freire, a teacher that is genuinely concerned with moral and ethical development of his/her students will act accordingly in classroom, bringing into discussion issues that benefit both from science knowledge and also from students' non-scientific worldviews. We propose that Gould's NOMA principle can be developed by teachers as a fruitful strategy for teaching Biology contents as BE. Learning from some examples taken from school contents, we aim to show that the application of such principle in school would help clarifying the nature and foundations of evolutionary theories, mainly neo-Darwinism, as well as the non-overlapping domains of scientific and religious worlds. Therefore, it would be possible to maintain the necessary distance (demanded for ethical reasons) from subjective issues, without any harm for the necessary, objective and deep appreciation of scientific knowledge. In this perspective, we understand that well-known incompatibilities between science and religion could be clarified and discussed with students, since each of these domains have an important role in pupils' personal development. (shrink)

The following article describes a pilot study on the possible integration of digital historiography into teaching practice. It focuses on Émilie Du Châtelet’s considerations of space and time against the background of Leibniz’s program of analysis situs. Historians have characterized philosophical controversies on space and time as a dichotomy between the absolute and relational concepts of space and time. In response to this, the present case study pursues two aims: First, it shows that the common portrayal simplifies the complex (...) pattern of change and the semantic shift from absolute-relational concepts of space and time to invariance and conservation principles. Second, against this background, I present the Online Reading Guide on Émilie Du Châtelet’s Foundations of Physics, a teaching and research project designed to help navigate Du Châtelet’s Institutions physiques. This project makes Du Châtelet’s important text visible to a broad audience and allows for a more critical and deeper view on classical topics of the history of philosophy and science in a more accessible way than traditional introductions. (shrink)

Ethics in science is integrated into an interdisciplinary science course called “Science, Technology and Society” (STS). This paper focuses on the section of the course called “Societal Impact on Science and Technology”, which includes the topics Misconduct in Science, Scientific Freedom and Responsibility, and the Use of Human Subjects in Research. Students in the course become aware not only of the science itself, but also of the process of science, some aspects of (...) the history of science, the social responsibilities of scientists, and the ethical issues in science. Teaching techniques include the instructor sharing experiences as a scientist with the students, sharing books and resources with students, utilizing current sources of information like the weekly “Science Times”, inviting guest speakers, and utilizing portfolios to assess student learning. (shrink)

Universities and other research institutions are increasingly providing additional training in research integrity to improve the quality and reliability of research. Various training courses have been developed, with diverse learning goals and content. Despite the importance of training that focuses on moral character and professional virtues, there remains a lack of training that adopts a virtue ethics approach. To address this, we, a European Commission-funded consortium, have designed a train-the-trainer programme for research integrity. The programme is based on (1) virtue (...) ethics, (2) the ethos of science, (3) learning by doing and (4) learner-centred teaching. The blended learning programme combines e-learning modules with participatory group sessions. Trainers are taught how to guide researchers through a series of structured exercises for fostering reflection on scientific virtues, and how to promote understanding and application of the European Code of Conduct for Research Integrity. Trainers are provided with adaptable tools and resources that can be used and combined in different ways. The programme implementation began in Spring 2020 and 470 trainers have participated to date. When trainers were asked to grade – between 0 (very bad) and 10 (excellent) – the e-learning modules and the participatory exercises, 60% scored a grade 8 or higher (median = 8, IQR = 2) for the e-learning modules, whereas 80% scored a grade 8 or higher (median = 9, IQR = 1) for the participatory exercises. A majority felt that the training helped them as a trainer to learn about ways to organise and teach a research integrity course (82%) and would recommend the interactive exercises to others (92%). Trainers have educated over 3300 researchers in Europe using our virtue-based approach. The VIRT2UE train-the-trainer programme fosters research integrity by providing trainers with exercises and tools which enable them to stimulate the development of good researchers across Europe. (shrink)

ABSTRACTWhile pedagogical content knowledge has been studied across a wide range of research areas, including science, language teaching and mathematics, there is limited research on the role...

The problem of developing research and innovation in accordance with society’s general needs and values has received increasing attention in research policy. In the last 7 years, the concept of “Responsible Research and Innovation” has gained prominence in this regard, along with the resulting question of how best to integrate awareness about science–society relations into daily practices in research and higher education. In this context, post-graduate training has been seen as a promising entrance point, but tool-kit approaches more frequently (...) have been used. In this paper, we present and analyze an experiment—in the format of a Ph.D. course for early-career researchers—deploying an alternative approach. Drawing on Argyris and Schön’s framing of reflective practice, and their distinctions between espoused theories and theories-in-use, the analyzed course endeavored to stimulate double-loop learning. Focusing on dislocatory moments, this paper analyses how the course tried to teach participants to reflect upon their own practices, values, and ontologies, and whether this provided them with the resources necessary to reflect on their theories-in-use in their daily practices. (shrink)

As science educators, we must view the changing nature of society brought on by technology and the global nature of society as an impetus to reexamine the nature of science instruction. We have been bestowed with the responsibility to educate students on a variety of topics that less than two decades ago did not exist. Many of these social issues are controversial in nature and are directly linked to the local, regional, national, and global communities in which we (...) exist. However, including these social issues in the extant curriculum of science has, at best, been limited. This is true even though the National Science Education Standards specifically indicate that science and technology, as well as science in personal and social perspectives, are integral to science education. The following study examines a group of science teachers’ beliefs about the implementation of controversial social/technological issues in the extant science curriculum. Indications are that teachers believe that social issues are important to study, yet lack the support from their communities to teach social issues. (shrink)

Over two hundred years ago, Thomas Jefferson suggested the need for a broader legal curriculum. As the twenty-first century begins, the practice of law will increasingly demand interdisciplinary knowledge and collaboration — between those trained in law and a broad range of scientific and technical fields, including engineering, biology, genetics, ethics, and the social sciences. The practice of public health law provides a model for both the substantive integration of law with science, and for the way its practitioners work. (...) In addition, public health law also provides a model for interdisciphuy and integrative teaching. (shrink)

Over two hundred years ago, Thomas Jefferson suggested the need for a broader legal curriculum. As the twenty-first century begins, the practice of law will increasingly demand interdisciplinary knowledge and collaboration — between those trained in law and a broad range of scientific and technical fields, including engineering, biology, genetics, ethics, and the social sciences. The practice of public health law provides a model for both the substantive integration of law with science, and for the way its practitioners work. (...) In addition, public health law also provides a model for interdisciphuy and integrative teaching. (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)

Neuroscientists are increasingly put into situations which demand critical reflection about the ethical and appropriate use of research tools and scientific knowledge. Students or trainees also have to know how to navigate the ethical domains of this context. At a time when neuroscience is expected to advance policy and practice outcomes, in the face of academic pressures and complex environments, the importance of scientific integrity comes into focus and with it the need for training at the graduate level in the (...) responsible conduct of research . I describe my experience teaching RCR in a graduate neuroscience program and identify three personal reflections where further dialogue could be warranted: mobilizing a common set of competencies and virtues standing for professionalism in the neurosciences; tailoring RCR for the neurosciences and empowering students through the active engagement of mentors; soliciting shared responsibility for RCR training between disciplines, institutions and governmental or funding agencies. (shrink)

It is argued that the manner in which we teach science in the high schools represents an outdated positivistic conception of science. The standard presentation of a year of each of chemistry, biology and physics should be replaced by an integrated science plus history, philosophy, and sociology of science which would take a total of three years to complete. A proper appreciation for the true nature of science is essential to the continued health of (...) the scientific enterprise. (shrink)

Integral development as the most assertive path of sustainable development models is presented as a new paradigm in the social teaching of the church. It is a question of identifying the theoretical foundations that precede the encyclical Laudato Si’ (ls) from philosophy and theology: the harmony of quaternity, the mystique of creation, the science-faith dialogue and the theology of the small and the poor. At the same time it tries to recover and remember the reflections and teachings that (...) are already in the tradition of the church on the “common house”. It proposes a renewed theological attitude and joint ethical action of all humanity, believers and non-believers. (shrink)

In the past few years, scholars have been questioning whether the current approach in data ethics based on the higher level case studies and general principles is effective. In particular, some have been complaining that such an approach to ethics is difficult to be applied and to be taught in the context of data science. In response to these concerns, there have been discussions about how ethics should be “embedded” in the practice of data science, in the sense (...) of showing how ethical issues emerge in small technical choices made by data scientists in their day-to-day activities, and how such an approach can be used to teach data ethics. However, a precise description of how such proposals have to be theoretically conceived and could be operationalized has been lacking. In this article, we propose a full-fledged characterization of ‘embedding’ ethics, and how this can be applied especially to the problem of teaching data science ethics. Using the emerging model of ‘microethics’, we propose a way of teaching daily responsibility in digital activities that is connected to the higher level ethical challenges discussed in digital/data ethics. We ground this microethical approach into a virtue theory framework, by stressing that the goal of a microethics is to foster the cultivation of moral virtues. After delineating this approach of embedding ethics in theoretical detail, this article discusses a concrete example of how such a ‘micro-virtue ethics’ approach could be practically taught to data science students. (shrink)

Since the early 1980s, private, for-profit corporations have become increasingly involved in all aspects of scientific research, especially of biomedical research. In this essay, I argue that there are dangerous epistemic consequences of this trend, which should be more thoroughly examined by social epistemologists. In support of this claim, I discuss a recent episode of pharmaceutical research involving the painkiller Vioxx. I argue that the research on Vioxx was epistemically problematic and that the primary cause of these inadequacies was faulty (...) institutional arrangements. More specifically, the research was organized in such a way as to allow short-term commercial interests to compromise epistemic integrity. Thus, the Vioxx case study, in conjunction with numerous case studies developed elsewhere, provides strong reasons for believing that the privatization of the biomedical sciences is epistemically worrisome, and it suggests that the primary response to this situation should be a social, or organizational, one. What kind of organizational response would be most beneficial? I briefly discuss two prominent social epistemological proposals for how scientific research should be organized - namely those of Philip Kitcher and Helen Longino - and I suggest that they are incapable of dealing with the phenomenon of privatization. I then draw upon the Vioxx episode in order to outline an alternative suggestion for reorganizing certain aspects of pharmaceutical research. (shrink)

This exciting new textbook provides a sophisticated examination of the Socratic method for teaching political science students in higher education. It shows how the Socratic method is employed in the Platonic dialogs, compares its transformative approach to other student-centered teaching philosophies, and addresses the challenges of adopting the Socratic method in the contemporary classroom. The book is divided into three sections that integrate these practical aspects on the Socratic method with the theoretical considerations of Socratic philosophy while (...) also addressing contemporary concerns about teaching and learning in higher education. Section One explores how the Socratic method is portrayed by Socrates in Plato's dialogs. Section Two compares the Socratic method with modern and contemporary accounts of teaching and learning. Section Three examines some of the contemporary challenges of practicing the Socratic method in the university classroom today and how teachers can overcome them. Written in a clear and engaging style, this timely intervention is essential reading for upper undergraduate students enrolled in courses that specialize in pedagogical techniques, political theory, Socratic philosophy, and law. (shrink)

Knowledge of the ethical and legal basis of medicine is as essential to clinical practice as an understanding of basic medical sciences. In the UK, the General Medical Council requires that medical graduates behave according to ethical and legal principles and must know about and comply with the GMC’s ethical guidance and standards. We suggest that these standards can only be achieved when the teaching and learning of medical ethics, law and professionalism are fundamental to, and thoroughly integrated (...) both vertically and horizontally throughout, the curricula of all medical schools as a shared obligation of all teachers. The GMC also requires that each medical school provides adequate teaching time and resources to achieve the above. We reiterate that the adequate provision and coordination of teaching and learning of ethics and law requires at least one full-time senior academic in ethics and law with relevant professional and academic expertise. In this paper we set out an updated indicative core content of learning for medical ethics and law in UK medical schools and describe its origins and the consultative process by which it was achieved. (shrink)

This study investigates the integration of the interactive whiteboard into Science teaching during the primary educational cycle and teachers’ perceptions about the use of the information and communication technology in the school subject Science. An online questionnaire was distributed to Croatian schools in 2015/2016. A total of 104 teachers expressed their perceptions, 65 of them were from schools without an IWB, while the remaining 39 responded to our online questionnaire from schools with an implemented IWB. The results (...) indicate the higher usage of ICT in schools with an IWB compared to schools without an IWB. Teachers use IWBs and computers mostly once or twice per week and DVDs once per week. Additional results pointed to the positive teachers’ perceptions on technology in linking student motivation to outcome levels in science. The findings reveal the constant education focused on IWB integration, and internet and technical support as a starting point for an innovative practice in science. Future studies are directed to the investigation of the use of technology in all schools in the Republic of Croatia. U radu se prikazuju rezultati istraživanja o korištenju pametne ploče u nastavi Prirode i društva te stavova učitelja o uporabi informacijske i komunikacijske tehnologije u podučavanju tih nastavnih sadržaja. Istraživanje je provedeno putem online upitnika koji je bio poslan u škole u Hrvatskoj tijekom školske godine 2015/2016. Ukupno 104 učitelja iskazalo je svoje stavove: 65 učitelja iz škola bez pametne ploče, a 39 iz škola u kojima koriste pametnu ploču. Rezultati ukazuju na češću uporabu IKT u školama s pametnom pločom u usporedbi sa školama bez nje. Učitelji pametnu ploču i računala najčešće koriste jednom do dva puta tjedno, a DVD jednom tjedno. Rezultati također pokazuju pozitivne stavove učitelja o uporabi tehnologije za povećanje motivacije učenika i njihovih postignuća. Nalazi istraživanja ukazuju na kontinuiranu edukaciju usmjerenu na rad s pametnom pločom te tehničku podršku kao ključne za inovativnu nastavu. Buduća istraživanja trebala bi analizirati korištenje tehnologije u svim školama u Republici Hrvatskoj. (shrink)

A Scientific Integrity Consortium developed a set of recommended principles and best practices that can be used broadly across scientific disciplines as a mechanism for consensus on scientific integrity standards and to better equip scientists to operate in a rapidly changing research environment. The two principles that represent the umbrella under which scientific processes should operate are as follows: Foster a culture of integrity in the scientific process. Evidence-based policy interests may have legitimate roles to play in influencing aspects of (...) the research process, but those roles should not interfere with scientific integrity. The nine best practices for instilling scientific integrity in the implementation of these two overarching principles are Require universal training in robust scientific methods, in the use of appropriate experimental design and statistics, and in responsible research practices for scientists at all levels, with the training content regularly updated and presented by qualified scientists. Strengthen scientific integrity oversight and processes throughout the research continuum with a focus on training in ethics and conduct. Encourage reproducibility of research through transparency. Strive to establish open science as the standard operating procedure throughout the scientific enterprise. Develop and implement educational tools to teach communication skills that uphold scientific integrity. Strive to identify ways to further strengthen the peer review process. Encourage scientific journals to publish unanticipated findings that meet standards of quality and scientific integrity. Seek harmonization and implementation among journals of rapid, consistent, and transparent processes for correction and/or retraction of published papers. Design rigorous and comprehensive evaluation criteria that recognize and reward the highest standards of integrity in scientific research. (shrink)

Introduction -- The philosophy of science -- Scientific research -- Math gives science power -- The history of science -- Science and society -- Scientific rewards -- Scientific integrity vs. pseudosciences -- An age of optimism -- Roadblocks to science -- Teaching critical thinking -- A modern synthesis -- Science education: the need for good people in science -- Science at risk.

This paper proposes laying the groundwork for principled moral reasoning as a seminal goal of ethics interventions in higher education, and on this basis, makes a case for educating future specialists and professionals with a foundation in philosophical ethics. Identification of such a seminal goal is warranted by the progressive dissociation of scientific practice and ethical deliberation since the onset of a problematic relationship between science and ethics around the mid-19th century, and the extensive mistrust of integrating ethics in (...) science and engineering curricula beyond its “applied,” “practical,” or “professional” implications. Although calls by international scientific and educational bodies to strengthen ethics teaching in scientific education over the past quarter century have brought about a notion of combining competence in a certain field with competence in ethics, this is neither entrenched in the academic community, nor fleshed out as regards its core or instruments to realize it. The legitimate goals of ethics teaching in higher education, almost settled since the 1980s, can be subsumed under the proposed seminal goal, and the latter also would safeguard content and methods of ethics interventions against the intrusion of indoctrinative approaches. In this paper, derivation of the proposed seminal goal rests on an interpretation of the Kohlbergian cognitive-developmental conception of moral adulthood consisting in autonomous principled moral reasoning. This interpretation involves, based on Kant’s conception of the virtuous person, integrating questions about the “good life” into the domain of principled reasoning. (shrink)

Philosophy and the scientific revolution / Daniel Garber -- Old history and introductory teaching in early modern philosophy : a response to Daniel Garber / Lisa Downing -- Meaning and metaphysics / Susan Neiman -- Evil and wonder in early modern philosophy : a response to Susan Neiman / Mark Larrimore -- The forgetting of gender / Nancy Tuana -- The forgetting of gender and the new histories of philosophy : a response to Nancy Tuana / Eileen O’Neill -- (...) The idea of early modern philosophy / Knud Haakonssen -- Response to Knud Haakonssen / Jeffrey Edwards -- Arguments over obligation : teaching time and place in moral philosophy / Ian Hunter -- Response to Ian Hunter / T.J. Hochstrasser -- Teaching the history of moral philosophy / J.B. Schneewind -- Historicism, moral judgment, and the good life : a response to J.B. Schneewind / Jennifer A. Herdt -- Integrating history of philosophy with history of science after Kant / Michael Friedman -- Response to Michael Friedman / Juliet Floyd -- Thought versus history : reflections on a French problem / Denis Kambouchner -- Response to Denis Kambouchner / Bé́atrice Longuenesse -- Teaching the history of philosophy in 19th-century Germany / Ulrich Johannes Schneider -- Response to Ulrich Johannes Schneider / Karl Ameriks -- Comment : philosophy in practice / Lorraine Daston -- A note from inside the teapot / Anthony Grafton -- Philosophy, history of philosophy, and L’histoire de l’esprit humain : a historiographical question and problem for philosophers / Jonathan Israel -- History and/or philosophy / Donald R. Kelly -- Historians look at the new histories of philosophy : roundtable discussion. (shrink)

In this paper I outline an “agent-centered” approach to learning ethics. The approach is “agent-centered” in that its central aim is to prepare students toact wisely and responsibly when faced with moral problems. The methods characteristic of this approach are suitable for integrating material on professional and research ethics into technical courses, as well as for free-standing ethics courses. The analogy I draw between ethical problems and design problems clarifies the character of ethical problems as they are experienced by those (...) who must respond to them. It exposes the mistake, common in ethics teaching, of misrepresenting moral problems as multiple-choice problems, especially in the form of ‘dilemmas’, that is, a forced choice between two unacceptable alternatives. Furthermore, I clarify the importance for responsible practice of recognizing any ambiguity in the problem situation. (shrink)

ABSTRACTThe unprecedented progress in bio‐medical sciences and technology during the last few decades has resulted in great transformations in the concepts of health and disease, health systems and healthcare organisation and practices. Those changes have been accompanied by the emergence of a broad range of ethical dilemmas that confront health professionals more frequently. The classical Hippocratic ethical principles, though still retaining their relevance and validity, have become insufficiently adequate in an increasing range of problems and situations. Healthcare that has been (...) practised for centuries on the basis of a direct doctor‐patient relationship has been increasingly transformed into a more complex process integrating the health‐team, the patient and the community. Systematic review of the specialised literatures revealed that Healthcare Ethics education has become a basic requirement for any training programme for health professionals, and should cover the different stages of undergraduate, postgraduate and continuing education. Both theoretical foundations and practical skills are required for the appropriate ethical reasoning, ethical attitude and decision‐making abilities. There is growing evidence that physicians’ professional and moral development is not only determined by the formal curriculum of ethics; rather more, it is determined by the moral environment of the professional practice, the ‘hidden curriculum’ which deserves serious consideration by medical education. (shrink)

The use of role-playing (“active learning”) as a teaching tool has been reported in areas as diverse as social psychology, history and analytical chemistry. Its use as a tool in the teaching of engineering ethics and professionalism is also not new, but the approach develops new perspectives when used in a college class of exceptionally wide cultural diversity. York University is a large urban university (40,000 undergraduates) that draws its enrolment primarily from the Greater Toronto Area, arguably one (...) of the most culturally diverse cities in the world, embracing the largest percentage of Canada’s immigration. Among the area’s five million inhabitants, 50% identify themselves as a visible minority born outside Canada, while over 100 languages and dialects are spoken daily. Although students admitted from this international pool have usually been exposed to western attitudes during secondary education and are rapidly assimilated into Canadian culture, responses to specific ethical issues are strongly influenced by their prior culture. Two and three-part scripts for case studies based on NSF or original scenarios were written to illustrate issues such as gifts, attitudes towards women and ethnic minorities, conflict of interest, whistle-blowing, sexual harassment, individual rights, privacy, environment, intellectual property, and others. Following the presentation, the actors lead group discussion based on previously specified questions. Once the initial shyness and reluctance of some cultures has been overcome through the building of rapport, students have written original scripts based on hypothetical or prior personal situations. The method is now being adopted in a short course format to assist the professional integration of foreign trained engineers. (shrink)

This essay offers numerous ideas on how to integrate science and history into classroom pedagogy in a way that acknowledges the contributions of women and other groups underrepresented in science by highlighting the cultural and political contexts in which science developed rather than by adding token individuals to a history of science still largely defined by the achievements of a few great men. It details how students in a General Education class co-taught by a botanist and (...) a historian of science at the Evergreen State College not only gained skills in field botany and vegetation analysis but also became more informed about how modern scientific disciplines took shape. Recognizing that race, class, and gender have played a role in how science developed, the students’ understanding of the complicated legacy of scientific inquiry gave them tools to be more rigorous in their thinking about scientific practice. This interdisciplinary approach, so crucial in fostering inclusivity in scientific disciplines, also promoted a deeper engagement with historical inquiry. (shrink)

The goal of this paper is to stress the significance of ethics for engineering education and to illustrate how it can be brought into the mainstream of higher education in a natural way that is integrated with the teaching objectives of enriching the core meaning of engineering. Everyone will agree that the practicing engineer should be virtuous, should be a good colleague, and should use professional understanding for the common good. But these injunctions to virtue do not reach (...) closely enough the ethic of the engineer as engineer, as someone acting in a uniquely engineering situation, and it is to such conditions that I wish to speak through a set of specific examples from recent history. I shall briefly refer to four controversies between engineers. Then, in some detail I shall narrate three historical cases that directly involve the actions of one engineer, and finally I would like to address some common contemporary issues. The first section, “Engineering Ethics and the History of Innovation” includes four cases involving professional controversy. Each controversy sets two people against each other in disputes over who invented the telegraph, the radio, the automobile, and the airplane. In each dispute, it is possible to identify ethical and unethical behavior or ambiguous ethical behavior that serves as a basis for educational discussion. The first two historical cases described in “Crises and the Engineer” involve the primary closure dam systems in the Netherlands, each one the result of the actions of one engineer. The third tells of an American engineer who took his political boss, a big city mayor, to court over the illegal use of a watershed. The challenges these engineers faced required, in the deepest sense, a commitment to ethical behavior that is unique to engineering and instructive to our students. Finally, the cases in “Professors and Comparative Critical Analysis” illuminate the behavior of engineers in the design of structures and also how professors can make public criticisms of designs that seem wasteful. (shrink)

The use of role-playing (“active learning”) as a teaching tool has been reported in areas as diverse as social psychology, history and analytical chemistry. Its use as a tool in the teaching of engineering ethics and professionalism is also not new, but the approach develops new perspectives when used in a college class of exceptionally wide cultural diversity. York University is a large urban university (40,000 undergraduates) that draws its enrolment primarily from the Greater Toronto Area, arguably one (...) of the most culturally diverse cities in the world, embracing the largest percentage of Canada’s immigration. Among the area’s five million inhabitants, 50% identify themselves as a visible minority born outside Canada, while over 100 languages and dialects are spoken daily. Although students admitted from this international pool have usually been exposed to western attitudes during secondary education and are rapidly assimilated into Canadian culture, responses to specific ethical issues are strongly influenced by their prior culture. Two and three-part scripts for case studies based on NSF or original scenarios were written to illustrate issues such as gifts, attitudes towards women and ethnic minorities, conflict of interest, whistle-blowing, sexual harassment, individual rights, privacy, environment, intellectual property, and others. Following the presentation, the actors lead group discussion based on previously specified questions. Once the initial shyness and reluctance of some cultures has been overcome through the building of rapport, students have written original scripts based on hypothetical or prior personal situations. The method is now being adopted in a short course format to assist the professional integration of foreign trained engineers. (shrink)

To be made aware of bioethical issues related to their disciplines, undergraduate students in biology and pharmaceutical sciences at the University of Basel are required to enroll in the bioethics course called “Introduction to Bioethics”. This article describes the chances and challenges faced when teaching a large number of undergraduate biology and pharmaceutical sciences students. Attention is drawn to the relevance and specific ethical issues that biology and pharmaceutical sciences students may be confronted with and to how these could (...) be integrated into ethics curricula. Results from a survey addressing the knowledge and opinion of students taking the course in spring semester 2012, 2013, and 2014 are presented and discussed. Finally, we describe the lessons learned and how we have improved the course based on students’ feedback throughout the following years. (shrink)

This paper presents an experience in developing professional ethics by an approach that integrates knowledge, teaching methodologies and assessment coherently. It has been implemented for students in both the Software Engineering and Computer Engineering degree programs of the Technical University of Madrid, in which professional ethics is studied as a part of a required course. Our contribution of this paper is a model for formative assessment that clarifies the learning goals, enhances the results, simplifies the scoring and can be (...) replicated in other contexts. A quasi-experimental study that involves many of the students of the required course has been developed. To test the effectiveness of the teaching process, the analysis of ethical dilemmas and the use of deontological codes have been integrated, and a scoring rubric has been designed. Currently, this model is also being used to develop skills related to social responsibility and sustainability for undergraduate and postgraduate students of diverse academic context. (shrink)