Results for 'Science Education'

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  1.  60
    Knowledge, Belief, and Science Education.Waldomiro Silva-Filho, Charbel El-Hani & Tiago Ferreira - 2016 - Science & Education 25 (7 - 8):775-794.
    This article intends to show that the defense of “understanding” as one of the major goals of science education can be grounded on an anti-reductionist perspective on testimony as a source of knowledge. To do so, we critically revisit the discussion between Harvey Siegel and Alvin Goldman about the goals of science education, especially where it involves arguments based on the epistemology of testimony. Subsequently, we come back to a discussion between Charbel N. El-Hani and Eduardo (...)
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  2. Why Machine-Information Metaphors Are Bad for Science and Science Education.Massimo Pigliucci & Maarten Boudry - 2011 - Science & Education 20 (5-6):471.
    Genes are often described by biologists using metaphors derived from computa- tional science: they are thought of as carriers of information, as being the equivalent of ‘‘blueprints’’ for the construction of organisms. Likewise, cells are often characterized as ‘‘factories’’ and organisms themselves become analogous to machines. Accordingly, when the human genome project was initially announced, the promise was that we would soon know how a human being is made, just as we know how to make airplanes and buildings. Impor- (...)
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  3. Scientific Realism Versus Antirealism in Science Education.Seungbae Park - 2016 - Santalka: Filosofija, Komunikacija 24 (1):72-81.
    Scientific realists believe both what a scientific theory says about observables and unobservables. In contrast, scientific antirealists believe what a scientific theory says about observables, but not about unobservables. I argue that scientific realism is a more useful doctrine than scientific antirealism in science classrooms. If science teachers are antirealists, they are caught in Moore’s paradox when they help their students grasp the content of a scientific theory, and when they explain a phenomenon in terms of a scientific (...)
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  4. What Students' Arguments Can Tell Us: Using Argumentation Schemes in Science Education.Fabrizio Macagno & Aikaterini Konstantinidou - 2013 - Argumentation 27 (3):225-243.
    The relationship between teaching and argumentation is becoming a crucial issue in the field of education and, in particular, science education. Teaching has been analyzed as a dialogue aimed at persuading the interlocutors, introducing a conceptual change that needs to be grounded on the audience’s background knowledge. This paper addresses this issue from a perspective of argumentation studies. Our claim is that argumentation schemes, namely abstract patterns of argument, can be an instrument for reconstructing the tacit premises (...)
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  5. Constructive Realism and Science Education.Khosrow Bagheri Noaparast - 2013 - Journal of Curriculum Studies 7 (28):81-92.
    Constructive realism (CR) is an attempt to overcome the difficulties associated with naïve realism and radical constructivism. There are different versions for CR. In this paper, I defend a particular version of CR. Complexity of reality, on the one hand, and the impact of human mind, language, and culture, on the other, leads to the inevitable contribution of constructs in knowledge development. According to the CR, even if mental, linguistic and cultural side of constructs could not be avoided in principle, (...)
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  6. Knowledge, Belief, and Science Education.Waldomiro Silva Filho, Tiago Ferreira & El-Hani Charbel - 2016 - Canadian Journal of Bioethics / Revue canadienne de bioéthique (00):1-21.
    This article intends to show that the defense of ‘‘understanding’’ as one of the major goals of science education can be grounded on an anti-reductionist perspective on testimony as a source of knowledge. To do so, we critically revisit the discussion between Harvey Siegel and Alvin Goldman about the goals of science education, especially where it involves arguments based on the epistemology of testimony. Subsequently, we come back to a discussion between Charbel N. El-Hani and Eduardo (...)
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  7. The Fact of Evolution: Implications for Science Education.James R. Hofmann & Bruce H. Weber - 2003 - Science & Education 12 (8):729-760.
    Creationists who object to evolution in the science curriculum of public schools often cite Jonathan Well’s book Icons of Evolution in their support (Wells 2000). In the third chapter of his book Wells claims that neither paleontological nor molecular evidence supports the thesis that the history of life is an evolutionary process of descent from preexisting ancestors. We argue that Wells inappropriately relies upon ambiguities inherent in the term ‘Darwinian’ and the phrase ‘Darwin’s theory’. Furthermore, he does not accurately (...)
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  8. The Sophisticated Inductive Approach and Science Education.Khosrow Bagheri Noaparast, Zahra Niknam & Mohammad Zoheir Bagheri Noaparast - 2011 - Procedia - Social and Behavioral Sciences 30:1365-1369.
    Introduction: The aim of the present study was to explore the relationship between sophisticated view of induction and science education. Method: This study is a critical review on the relation between philosophical approaches to science and science education. Thus, an analytic method is used in investigating the theories of science and their relationship to science education. Results: Analysing the arguments against induction, we argue that the sophisticated view of induction is not only (...)
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  9. Integrating History and Philosophy of the Life Sciences in Practice to Enhance Science Education: Swammerdam’s Historia Insectorum Generalis and the Case of the Water Flea.Catherine Kendig - 2013 - Science & Education 22 (8):1939-1961.
    Abstract: Hasok Chang (Sci Educ 20:317–341, 2011) shows how the recovery of past experimental knowledge, the physical replication of historical experiments, and the extension of recovered knowledge can increase scientific understanding. These activities can also play an important role in both science and history and philosophy of science education. In this paper I describe the implementation of an integrated learning project that I initiated, organized, and structured to complement a course in history and philosophy of the life (...)
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  10. Analysing Theoretical Frameworks of Moral Education Through Lakatos’s Philosophy of Science.Hyemin Han - 2014 - Journal of Moral Education 43 (1):32-53.
    The structure of studies of moral education is basically interdisciplinary; it includes moral philosophy, psychology, and educational research. This article systematically analyses the structure of studies of moral educational from the vantage points of philosophy of science. Among the various theoretical frameworks in the field of philosophy of science, this article mainly utilizes the perspectives of Lakatos’s research program. In particular, the article considers the relations and interactions between different fields, including moral philosophy, psychology, and educational research. (...)
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  11. Improving Epistemological Beliefs and Moral Judgment Through an STS-Based Science Ethics Education Program.Hyemin Han & Changwoo Jeong - 2014 - Science and Engineering Ethics 20 (1):197-220.
    This study develops a Science–Technology–Society (STS)-based science ethics education program for high school students majoring in or planning to major in science and engineering. Our education program includes the fields of philosophy, history, sociology and ethics of science and technology, and other STS-related theories. We expected our STS-based science ethics education program to promote students’ epistemological beliefs and moral judgment development. These psychological constructs are needed to properly solve complicated moral and social (...)
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  12. Virtue Ethics, Positive Psychology, and a New Model of Science and Engineering Ethics Education.Hyemin Han - 2015 - Science and Engineering Ethics 21 (2):441-460.
    This essay develops a new conceptual framework of science and engineering ethics education based on virtue ethics and positive psychology. Virtue ethicists and positive psychologists have argued that current rule-based moral philosophy, psychology, and education cannot effectively promote students’ moral motivation for actual moral behavior and may even lead to negative outcomes, such as moral schizophrenia. They have suggested that their own theoretical framework of virtue ethics and positive psychology can contribute to the effective promotion of motivation (...)
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  13. Education Enhances the Acuity of the Nonverbal Approximate Number System.Manuela Piazza, Pierre Pica, Véronique Izard, Elizabeth Spelke & Stanislas Dehaene - 2013 - Psychological Science 24 (4):p.
    All humans share a universal, evolutionarily ancient approximate number system (ANS) that estimates and combines the numbers of objects in sets with ratio-limited precision. Interindividual variability in the acuity of the ANS correlates with mathematical achievement, but the causes of this correlation have never been established. We acquired psychophysical measures of ANS acuity in child and adult members of an indigene group in the Amazon, the Mundurucú, who have a very restricted numerical lexicon and highly variable access to mathematics (...). By comparing Mundurucú subjects with and without access to schooling, we found that education significantly enhances the acuity with which sets of concrete objects are estimated. These results indicate that culture and education have an important effect on basic number perception. We hypothesize that symbolic and nonsymbolic numerical thinking mutually enhance one another over the course of mathematics instruction. (shrink)
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  14. When Science Studies Religion: Six Philosophy Lessons for Science Classes.Massimo Pigliucci - 2013 - Science & Education 22 (1):49-67.
    It is an unfortunate fact of academic life that there is a sharp divide between science and philosophy, with scientists often being openly dismissive of philosophy, and philosophers being equally contemptuous of the naivete ́ of scientists when it comes to the philosophical underpinnings of their own discipline. In this paper I explore the possibility of reducing the distance between the two sides by introducing science students to some interesting philosophical aspects of research in evolutionary biology, using biological (...)
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  15. Science and Enlightenment: Two Great Problems of Learning.Nicholas Maxwell - 2019 - Cham, Switzerland: Springer Verlag.
    Two great problems of learning confront humanity: learning about the nature of the universe and about ourselves and other living things as a part of the universe, and learning how to become civilized or enlightened. The first problem was solved, in essence, in the 17th century, with the creation of modern science. But the second problem has not yet been solved. Solving the first problem without also solving the second puts us in a situation of great danger. All our (...)
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  16. Nonsense on Stilts About Science: Field Adventures of a Scientist- Philosopher.Massimo Pigliucci - 2012 - In J. Goodwin (ed.), Between Scientists and Citizens. CreateSpace.
    Public discussions of science are often marred by two pernicious phenomena: a widespread rejection of scientific findings (e.g., the reality of anthropogenic climate change, the conclusion that vaccines do not cause autism, or the validity of evolutionary theory), coupled with an equally common acceptance of pseudoscientific notions (e.g., homeopathy, psychic readings, telepathy, tall tales about alien abductions, and so forth). The typical reaction by scientists and science educators is to decry the sorry state of science literacy among (...)
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  17.  86
    The Nature of Climate Science: Challenges for the Development of Climate Change Science Literacy in Education.Raymond Ndubisi Anyanwu - 2019 - Africa International Journal of Multidisciplinary Research 2 (5).
    Despite raising awareness and promoting knowledge and skills-development for education about climate change, efforts by the education sector to promote the development of climate change science literacy in schools is challenged by the nature of climate science. We illuminated the nature of climate science by analysing literature on the nature of science that foregrounds discussions in climate science, and found that climate science involves mostly complex systems and problems; the scope of climate (...)
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  18.  43
    Education in the Systems Sciences An Annotated Guide to Education and Research Opportunities in the Sciences of Complexity.Blaine Snow - 1990 - Berkeley, CA, USA: Center for Ecoliteracy (Formerly The Elmwood Institute).
    This guide brings together information on the broad spectrum of education and research opportunities currently available in the sciences of complexity. Its purpose is to make these kinds of investigations more accessible by providing information on programs, institutions, organizations, and literature where one can learn about their principles, methods, and applications. The guide is intended to help interested students and educators locate the various academic fields, departments, institutes, and programs that offer education in systems thinking and complex systems (...)
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  19. Reasonable Doubt : Uncertainty in Education, Science and Law.Tony Gardner-Medwin - 2011 - In Philip Dawid, William Twining & Mimi Vasilaki (eds.), Evidence, Inference and Enquiry. Oup/British Academy. pp. 465-483.
    The use of evidence to resolve uncertainties is key to many endeavours, most conspicuously science and law. Despite this, the logic of uncertainty is seldom taught explicitly, and often seems misunderstood. Traditional educational practice even fails to encourage students to identify uncertainty when they express knowledge, though mark schemes that reward the identification of reliable and uncertain responses have long been shown to encourage more insightful understanding. In our information-rich society the ability to identify uncertainty is often more important (...)
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  20. Truth and Physics Education.Robert Keith Shaw - 2010 - Dissertation, University of Auckland
    This thesis develops a hermeneutic philosophy of science to provide insights into physics education. -/- Modernity cloaks the authentic character of modern physics whenever discoveries entertain us or we judge theory by its use. Those who justify physics education through an appeal to its utility, or who reject truth as an aspect of physics, relativists and constructivists, misunderstand the nature of physics. Demonstrations, not experiments, reveal the essence of physics as two characteristic engagements with truth. First, truth (...)
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  21. The Metaphysics of Science and Aim-Oriented Empiricism: A Revolution for Science and Philosophy.Nicholas Maxwell - 2019 - Cham, Switzerland: Springer Nature.
    This book gives an account of work that I have done over a period of decades that sets out to solve two fundamental problems of philosophy: the mind-body problem and the problem of induction. Remarkably, these revolutionary contributions to philosophy turn out to have dramatic implications for a wide range of issues outside philosophy itself, most notably for the capacity of humanity to resolve current grave global problems and make progress towards a better, wiser world. A key element of the (...)
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  22.  27
    Higher Education Research and The Growing Artefact Revolution 4.0.Riko Riko & Iis Dewi Lestari - 2018 - Diskusi Panel Nasional Multidisiplin Hasil Penelitian Dan Pengabdian Masyarakat 1 (LPPM UNINDRA):262-266.
    This article attempts to investigate the possibilities of higher education research to response the challenge from the growing artefact Revolution 4.0. This is the investigation of philosophy of science which is meant to argue that the higher education is the place where philosophical and scientific research as the main priority, but not technology. This consideration should be advanced since technology can fulfil themselves, while philosophy and science require a special place to grow, that is, within the (...)
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  23. Is Knowledge of Science Associated with Higher Skepticism of Pseudoscientific Claims?Matthew Johnson & Massimo Pigliucci - 2004 - American Biology Teacher 66 (8):536-548.
    We live in a world that is increasingly shaped by and bathed in science, with most scientific progress occurring in the past century, and much of it in the past few decades. Yet, several authors have puz- zled over the observation that modern societies are also characterized by a high degree of belief in a variety of pseudoscientific claims that have been thoroughly debunked or otherwise discarded by scientists (Anonymous, 2001; Ede, 2000).
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  24. From Knowledge to Wisdom: A Revolution in the Aims and Methods of Science.Nicholas Maxwell - 1984 - Oxford: Blackwell.
    This book argues for the need to put into practice a profound and comprehensive intellectual revolution, affecting to a greater or lesser extent all branches of scientific and technological research, scholarship and education. This intellectual revolution differs, however, from the now familiar kind of scientific revolution described by Kuhn. It does not primarily involve a radical change in what we take to be knowledge about some aspect of the world, a change of paradigm. Rather it involves a radical change (...)
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  25. What’s Wrong With Science? Towards a People’s Rational Science of Delight and Compassion, Second Edition.Nicholas Maxwell - 2009 - London: Pentire Press.
    What ought to be the aims of science? How can science best serve humanity? What would an ideal science be like, a science that is sensitively and humanely responsive to the needs, problems and aspirations of people? How ought the institutional enterprise of science to be related to the rest of society? What ought to be the relationship between science and art, thought and feeling, reason and desire, mind and heart? Should the social sciences (...)
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  26. Social Responsibility in French Engineering Education: A Historical and Sociological Analysis.Christelle Didier & Antoine Derouet - 2013 - Science and Engineering Ethics 19 (4):1577-1588.
    In France, some institutions seem to call for the engineer’s sense of social responsibility. However, this call is scarcely heard. Still, engineering students have been given the opportunity to gain a general education through courses in literature, law, economics, since the nineteenth century. But, such courses have long been offered only in the top ranked engineering schools. In this paper, we intend to show that the wish to increase engineering students’ social responsibility is an old concern. We also aim (...)
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  27.  64
    Using Cooperative Learning Model to Enhance Academic Performance of Teacher Trainees in Some Selected Topics in Integrated Science at Saint Monica’s College Of Education.Amoah Agyei - 2020 - International Journal of Scientific Research and Management (IJSRM) 8 (4).
    The study sought to investigate the effects of using cooperative learning on female teacher trainees of the Colleges of Education in learning some selected topics in Integrated Science. The investigation also sought to determine whether the Cooperative Learning Approach enhances the attitude and motivation of the trainees towards learning of Integrated Science. The study was carried out at the St. Monica’s College of Education in the Mampong Municipality of the Ashanti Region. In all, 80 teacher trainees (...)
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  28. Recipes for Science: An Introduction to Scientific Methods and Reasoning.Angela Potochnik, Matteo Colombo & Cory Wright - 2018 - New York: Routledge.
    There is widespread recognition at universities that a proper understanding of science is needed for all undergraduates. Good jobs are increasingly found in fields related to Science, Technology, Engineering, and Medicine, and science now enters almost all aspects of our daily lives. For these reasons, scientific literacy and an understanding of scientific methodology are a foundational part of any undergraduate education. Recipes for Science provides an accessible introduction to the main concepts and methods of scientific (...)
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  29. STEM Education and Outcomes in Vietnam: Views From the Social Gap and Gender Issues.Quan-Hoang Vuong, Pham Thanh Hang, Tran Trung, Vuong Thu Trang, Nguyen Manh Cuong, Nguyen Phuc Khanh Linh, La Viet Phuong & Manh-Toan Ho - manuscript
    United Nations’ Sustainable Development Goals 4 Quality Education has highlighted major challenges for all nations to ensure inclusive and equitable quality access to education, facilities for children, and young adults. The SDG4 is even more important for developing nations as receiving proper education or vocational training, especially in science and technology, means a foundational step in improving other aspects of their citizens’ lives. However, the extant scientific literature about STEM education still lacks focus on developing (...)
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  30.  36
    From Utopia to Science: Challenges of Personalised Genomics Information for Health Management and Health Enhancement. [REVIEW]Hub Zwart - 2009 - Medicine Studies 1 (2):155-166.
    From 1900 onwards, scientists and novelists have explored the contours of a future society based on the use of “anthropotechnologies” (techniques applicable to human beings for the purpose of performance enhancement ranging from training and education to genome-based biotechnologies). Gradually but steadily, the technologies involved migrated from (science) fiction into scholarly publications, and from “utopia” (or “dystopia”) into science. Building on seminal ideas borrowed from Nietzsche, Peter Sloterdijk has outlined the challenges inherent in this development. Since time (...)
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  31. Everyday Scientific Imagination: A Qualitative Study of the Uses, Norms, and Pedagogy of Imagination in Science.Michael T. Stuart - 2019 - Science & Education 28 (6-7):711-730.
    Imagination is necessary for scientific practice, yet there are no in vivo sociological studies on the ways that imagination is taught, thought of, or evaluated by scientists. This article begins to remedy this by presenting the results of a qualitative study performed on two systems biology laboratories. I found that the more advanced a participant was in their scientific career, the more they valued imagination. Further, positive attitudes toward imagination were primarily due to the perceived role of imagination in problem-solving. (...)
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  32.  28
    Is the Inquiry Based Education Paradigm Useful Not Just for Teaching Sciences but Also Theology?Mihai Girtu & Tudor Cosmin Ciocan - 2015 - Dialogo 2 (1):73-82.
    Starting from the traditional approaches to teaching science and religion we discuss modern pedagogical methods based on inquiry. We explore whether and how the teaching methods specific to each discipline may benefit in the teaching of the other.
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  33. Cognitive Contours: Recent Work on Cross-Cultural Psychology and its Relevance for Education.W. Martin Davies - 2007 - Studies in Philosophy and Education 26 (1):13-42.
    This paper outlines new work in cross-cultural psychology largely drawn from Nisbett, Choi, and Smith (Cognition, 65, 15–32, 1997); Nisbett, Peng, Choi, & Norenzayan, Psychological Review, 108(2), 291–310, 2001; Nisbett, The Geography of Thought: How Asians and Westerners Think Differently...and Why. New York: Free Press 2003), Ji, Zhang and Nisbett (Journal of Personality and Social Psychology, 87(1), 57–65, 2004), Norenzayan (2000) and Peng (Naive Dialecticism and its Effects on Reasoning and Judgement about Contradiction. University of Michigan, Ann Arbor, Michigan 1997) (...)
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  34. The Evolution-Creation Wars: Why Teaching More Science Just is Not Enough.Massimo Pigliucci - 2007 - McGill Journal of Education 42 (2):285-306.
    The creation-evolution “controversy” has been with us for more than a century. Here I argue that merely teaching more science will probably not improve the situation; we need to understand the controversy as part of a broader problem with public acceptance of pseudoscience, and respond by teaching how science works as a method. Critical thinking is difficult to teach, but educators can rely on increasing evidence from neurobiology about how the brain learns, or fails to.
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  35. Why We Need the Arts: John Macmurray on Education and the Emotions.Esther McIntosh - 2015 - Educational Philosophy and Theory 47 (1):47-60.
    This article argues that Macmurray’s work on education is deserving of serious consideration, because it offers an account of the person that highlights the significance of the emotions and the arts. In particular, the article examines and teases out the areas of Macmurray’s concept of the person that are pertinent to the philosophy of education, which includes the contention that the emotions can and should be educated. Furthermore, on the basis of Macmurray’s work, this article argues that emotional (...)
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  36.  20
    In Education We Trust.Venkata Rayudu Posina - manuscript
    Beginning with an examination of the deep history of making things and thinking about making things made-up in our minds, I argue that the resultant declarative understanding of the procedural knowledge of abstracting theories and building models—the essence(s) of the practice of science—embodied in Conceptual Mathematics is worth learning beginning with high school, along with grammar and calculus. One of the many profound scientific insights introduced—in a manner accessible to total beginners—in Lawvere and Schanuel's Conceptual Mathematics textbook is: the (...)
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  37. Suggestion for Teaching Science as a Pluralist Enterprise.Antonino Drago - 2018 - Transversal: International Journal for the Historiography of Science 5:66-83.
    The change in the organization of science education over the past fifty years is quickly recalled. Being its cultural bound the lack of a conception of the foundation of science, the multiple innovations have resulted as temporary improvements without a clear direction, apart from the technocratic goal of an automation of learning processes. The discovery of two dichotomies as the foundations of science suggests a pluralist conception of science, and hence the need to entirely renew (...)
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  38. From Children’s Literature to Sustainability Science, and Young Scientists for a More Sustainable Earth.Quan-Hoang Vuong - 2020 - Journal of Sustainability Education 23 (4):3-14.
    This essay evolved from my keynote address for the plenary session of the ASEAN Conference for Young Scientists 2019 organized by the ASEAN Secretariat, Vietnam Ministry of Science and Technology—whose main theme is sustainability science—organized at Hanoi-based Phenikaa University. It has also benefited from my advisory work for the International Union for Conservation of Nature (IUCN).
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  39. Can Humanity Learn to Become Civilized? The Crisis of Science Without Civilization.Nicholas Maxwell - 2000 - Journal of Applied Philosophy 17 (1):29-44.
    Two great problems of learning confront humanity: learning about the nature of the universe and our place in it, and learning how to become civilized. The first problem was solved, in essence, in the 17th century, with the creation of modern science. But the second problem has not yet been solved. Solving the first problem without also solving the second puts us in a situation of great danger. All our current global problems have arisen as a result. What we (...)
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  40.  92
    Discovery in Science and in Teaching Science.Nahum Kipnis - 2007 - Science & Education 16 (9-10):883-920.
    A proper presentation of scientific discoveries may allow science teachers to eliminate certain myths about the nature of science, which originate from an uncertainty among scholars about what constitutes a discovery. It is shown that a disagreement on this matter originates from a confusion of the act of discovery with response to it. It is suggested to separate these two concepts and also to distinguish the ‘scientific’ response from the ‘social’ one. The analysis is based on historical examples, (...)
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  41. Developing Education in Israa University Using Intelligent Tutoring System.Hasan A. Abu Hasanein & Samy S. Abu-Naser - 2018 - International Journal of Academic Pedagogical Research (IJAPR) 2 (5):1-16.
    This study was conducted with the aim of developing the academic work in the Palestinian universities. No one can deny the technological stage that we are witnessing in the present era. Our mission is to use this development to develop the educational process. The Artificial Intelligence of the most important branches of computer science, which is interested in the development of computer software in order to make them simulate intelligent human, recently it emerged promised based on artificial intelligence applications (...)
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  42. Mysticism and Science: Two Products of the Human Imagination.Jack T. Trevors & Milton H. Saier - 2012 - Dialogues in Philosophy, Mental and Neuro Sciences 5 (1):25-28.
    We examine that both science and religion were original products of the human imagination. However, the approaches taken to develop these two explanations of life, were entirely different. The precepts of evolution are well established through the scientific method. This approach has led to the accumulation of immense amounts of evidence for biological evolution, and much scientific progress has been made to understand the pathways taken for the appearance of organisms and their macromolecular constituents. The existence of spiritual beings (...)
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  43. An Intelligent Tutoring System for Learning Introduction to Computer Science.Ahmad Marouf, Mohammed K. Abu Yousef, Mohammed N. Mukhaimer & Samy S. Abu-Naser - 2018 - International Journal of Academic Multidisciplinary Research (IJAMR) 2 (2):1-8.
    The paper describes the design of an intelligent tutoring system for teaching Introduction to Computer Science-a compulsory curriculum in Al-Azhar University of Gaza to students who attend the university. The basic idea of this system is a systematic introduction into computer science. The system presents topics with examples. The system is dynamically checks student's individual progress. An initial evaluation study was done to investigate the effect of using the intelligent tutoring system on the performance of students enrolled in (...)
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  44. American Science and its Anti-Evolutionist Critics: It's the Evidence Stupid.Reed Richter - manuscript
    This is an unpublished talk written for a meeting of French philosophers. The paper describes the evolution versus creationism/intelligent design controversy in the U.S. A number of philosophers and scientists try to resolve this issue by sharply distinguishing the realm of science versus any talk of the supernatural. These pro-evolutionists often appeal to science's essential commitment to "methodological naturalism," the view that scientific methodology is essentially committed to naturalism and cannot meaningfully entertain hypotheses concerning the supernatural. I criticize (...)
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  45.  90
    Nation-Building Through Education: Positivism and its Transformations in Mexico.Alexander Stehn - 2019 - In Jr Sanchez (ed.), Latin American and Latinx Philosophy: A Collaborative Introduction. Routledge.
    In the second half of the nineteenth century, many Latin American intellectuals adapted the philosophy of positivism to address the pressing problems of nation-building and respond to the demands of their own social and political contexts, making positivism the second most influential tradition in the history of Latin American philosophy, after scholasticism. Since a comprehensive survey of positivism’s role across Latin American and Latinx philosophy would require multiple books, this chapter presents the history of positivism and its transformations in Mexican (...)
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  46.  83
    Conceptual Metaphors of Education: Grounds for Social Conflict in Modern-Day Russia.Sophia Polyankina - 2020 - Advances in Social Science, Education and Humanities Research 447:268-273.
    In modern Russian society, it is possible to trace the division into citizens who support the reforms of the education system, carried out over the past 20 years, and their ideological opponents. The purpose of the article is to identify the grounds of this social conflict and the failure of the reforms at the level of public consciousness. The author argues that the discrepancy between conceptual education metaphors guiding the vector of education policy causes a different understanding (...)
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  47. Medicine is Not Science: Guessing the Future, Predicting the Past.Clifford Miller - 2014 - Journal of Evaluation in Clinical Practice 20 (6):865–871.
    Abstract -/- Rationale, aims and objectives: Irregularity limits human ability to know, understand and predict. A better understanding of irregularity may improve the reliability of knowledge. -/- Method: Irregularity and its consequences for knowledge are considered. -/- Results: Reliable predictive empirical knowledge of the physical world has always been obtained by observation of regularities, without needing science or theory. Prediction from observational knowledge can remain reliable despite some theories based on it proving false. A naïve theory of irregularity is (...)
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  48.  24
    Ethics, Education and Development in Nigeria: A Philosophical Exposition.Sotonye Big-Alabo - 2020 - Bodhi International Journal of Research in Humanities, Arts and Science 4 (4):12-16.
    The concept of “Development” goes back to the period of grand acceptance of Charles Darwin’s Theory of Evolution, yet it is on its activating process, but not a new process, even peep into the Universal Human History to delve back Adam and Eve in the Eden, Paradise from where the global development evolved.. The study examined development in present day Nigeria looking at it from the angle of ethics and education. The study was guided by one objective which is (...)
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  49. Higher Education Governance: Students’ Participation, Union Elections & the Role of Lyngdoh Commission.Jarita Das - 2014 - International Journal of Humanities and Social Science Studies (I):65-70.
    This paper, being introductory in kind and limited in its scope and objective, tries to outline some basic issues of Higher Education Governance and Student-Participation in the same. The paper focuses on Students’ Union, Election and Representation of Students in the said Union, and the role of Lyngdoh Commission in the regard. It assumes that Lyngdoh Commission, with its recommendations on Students’ Union Election, has contributed considerably to the issue of Student-Participation in Higher Education Governance. The paper adopts (...)
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  50. From Knowledge to Wisdom: A Revolution for Science and the Humanities (Second Edition).Nicholas Maxwell - 2007 - London: Pentire Press.
    From Knowledge to Wisdom argues that there is an urgent need, for both intellectual and humanitarian reasons, to bring about a revolution in science and the humanities. The outcome would be a kind of academic inquiry rationally devoted to helping humanity learn how to create a better world. Instead of giving priority to solving problems of knowledge, as at present, academia would devote itself to helping us solve our immense, current global problems – climate change, war, poverty, population growth, (...)
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