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  1. Circles of Learning: Cooperation in the Classroom.David W. Johnson - 1984
    Cooperative learning processes have been rediscovered and are being used throughout the country on every level. The basic elements of cooperative goal structure are positive interdependence, individual accountability, face-to-face interaction, and cooperative skills. The teacher's role in structuring cooperative learning situations involves clearly specifying lesson objectives, placing students in productive learning groups and providing appropriate materials, clearly explaining the cooperative goal structure, monitoring students, and evaluating performance. For cooperative learning groups to be productive, students must be able to engage in (...)
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  • Whose Science? Whose Knowledge? Thinking from Women's Lives.Sandra Harding - 1991 - Cornell University.
    Sandra Harding here develops further the themes first addressed in her widely influential book, The Science Question in Feminism, and conducts a compelling analysis of feminist theories on the philosophical problem of how we know what we ...
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  • Pasteur's Quadrant: Basic Science and Technological Innovation.D. E. Stokes - 1997 - Brookings Inst Pr.
    In this book, Donald Stokes challenges Bush's view and maintains that we can only rebuild the relationship between government and the scientific community when we understand what is wrong with that view.Stokes begins with an analysis of the ...
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  • The nature of science in science education: An introduction.William F. Mccomas, Hiya Almazroa & Michael P. Clough - 1998 - Science & Education 7 (6):511-532.
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  • Teaching students “ideas‐about‐science”: Five dimensions of effective practice.Hannah Bartholomew, Jonathan Osborne & Mary Ratcliffe - 2004 - Science Education 88 (5):655-682.
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  • Progressive transitions in chemistry teachers’ understanding of nature of science based on historical controversies.Mansoor Niaz - 2009 - Science & Education 18 (1):43-65.
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  • A Research-Informed Instructional Unit to Teach the Nature of Science to Pre-Service Science Teachers.Agustín Adúriz-Bravo & Mercè Izquierdo-Aymerich - 2009 - Science & Education 18 (9):1177-1192.
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  • Why Implementing History and Philosophy in School Science Education is a Challenge: An Analysis of Obstacles.Dietmar Höttecke & Cibelle Celestino Silva - 2011 - Science & Education 20 (3-4):293-316.
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  • The nature of science and instructional practice: Making the unnatural natural.Fouad Abd-El-Khalick, Randy L. Bell & Norman G. Lederman - 1998 - Science Education 82 (4):417-436.
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  • Whose Science? Whose Knowledge? Thinking from Women's Lives.Susan Babbitt & Sandra Harding - 1993 - Philosophical Review 102 (2):287.
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  • Implementing History and Philosophy in Science Teaching: Strategies, Methods, Results and Experiences from the European HIPST Project.Dietmar Höttecke, Andreas Henke & Falk Riess - 2012 - Science & Education 21 (9):1233-1261.
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  • The Discourse of Chemistry (and Beyond).Jesper Sjöström - 2007 - Hyle 13 (2):83 - 97.
    This paper discusses the mainstream discourse of chemistry and suggests a complementary discourse. On a disciplinary level, the discourse of chemistry is based on objectivism, rationalism, and molecular reductionism. On a societal level, the discourse is based on modernism. The aims of chemical research and education are often unclear, which nowadays often leads to an emphasis on the needs from industry. Integrating meta-perspectives (philosophical, historical, and socio-cultural) within chemical research and education practice would – apart from providing chemical Bildung to (...)
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  • Historical case studies: Teaching the nature of science in context.Allan R. Irwin - 2000 - Science Education 84 (1):5-26.
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  • Quantitative Analysis of Representations of Nature of Science in Nordic Upper Secondary School Textbooks Using Framework of Analysis Based on Philosophy of Chemistry.Veli-Matti Vesterinen, Maija Aksela & Jari Lavonen - 2013 - Science & Education 22 (7):1839-1855.
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  • “Change is hard”: What science teachers are telling us about reform and teacher learning of innovative practices.Kathleen S. Davis - 2003 - Science Education 87 (1):3-30.
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  • School science culture: A case study of barriers to developing professional knowledge.Hugh Munby, Malcolm Cunningham & Cinde Lock - 2000 - Science Education 84 (2):193-211.
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  • Science education for democratic citizenship through the use of the history of science.Stein Dankert Kolstø - 2008 - Science & Education 17 (8-9):977-997.
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  • Pedagogical context knowledge: Toward a fuller understanding of what good science teachers know.John Barnett & Derek Hodson - 2001 - Science Education 85 (4):426-453.
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  • The central role of fallacious thinking in science education.Dana L. Zeidler - 1997 - Science Education 81 (4):483-496.
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  • Writing as a Learning Tool: Integrating Theory and Practice.Päivi Tynjälä, Lucia Mason & K. Lonka - 2001 - Springer Verlag.
    This book is an outstanding account of the current state of using writing in service of learning. It presents psychological and educational foundations of writing across the curriculum movement and describes writing-to-learn practices implemented at different levels of education. It provides concrete applications and ideas about how to enhance student learning by means of writing. It is useful for educators, curriculum developers, psychologists, cognitive scientists, writing researchers, and teachers.
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  • Thomas Kuhn's impact on science education: What lessons can be learned?Michael R. Matthews - 2004 - Science Education 88 (1):90-118.
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