Teleology in biology, chemistry and physics education: what primary teachers should know
Recent research in cognitive psychology suggests that children develop intuitions that may clash with what is accepted by scientists, thus making certain scientific concepts difficult to understand. Children possess intuitions about design and purpose that make them provide teleological explanations...
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Urray
2012
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| Διαθέσιμο Online: | https://pasithee.library.upatras.gr/review/article/view/111 |
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oai:ojs.pasithee.library.upatras.gr:article-1112019-09-17T16:52:01Z Teleology in biology, chemistry and physics education: what primary teachers should know KAMPOURAKIS, KOSTAS Teleology, biology, chemistry, physics Recent research in cognitive psychology suggests that children develop intuitions that may clash with what is accepted by scientists, thus making certain scientific concepts difficult to understand. Children possess intuitions about design and purpose that make them provide teleological explanations to many different sorts of tasks. One possible explanation for the origin of the bias to view objects as made for something derives from an early sensitivity to intentional agents and to their behavior as intentional object users and object makers. What is important is that teleological explanations may not be exclusively restricted in biological phenomena, as commonly assumed. Consequently, primary school teachers should take that into account when teaching biology, chemistry or physics concepts and try to refrain from enforcing students’ teleological intuitions Urray 2012-03-27 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf application/pdf https://pasithee.library.upatras.gr/review/article/view/111 10.26220/rev.111 Review of Science, Mathematics and ICT Education; Vol 1, No 2 (2007); 81-96 Review of Science, Mathematics and ICT Education; Vol 1, No 2 (2007); 81-96 1792-3999 1791-261X eng https://pasithee.library.upatras.gr/review/article/view/111/241 https://pasithee.library.upatras.gr/review/article/view/111/242 |
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UPatras |
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Pasithee |
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English |
| topic |
Pedagogical Content Knowledge, PCK, Knowledge acquisition, Inquiry-Based Science Education, science Energy, conservation, transformation, equivalence, history of science Transfer of energy, mechanical work, heat, semiotic actions, inscriptions Teleology, biology, chemistry, physics Analyse of the activity, strategy, behaviour, spreadsheet, learning education Nature of science, history of science, science teaching Total force on an immersed body, physics textbooks Teacher training, mathematics teaching, scheme, instrument Geology, Biology, time, explanatory register, obstacles Energy, transformation, vertical path, primary, middle school Issue, problem solving, preschool children, argumentation, STEM, engineering education Community, resources, teachers science education Inquiry-based science education, primary science education, teacher support, class observation, France education Waves, problem solving, interferences, sine function, graphical representation Geophysical entities, preschool children’s representations, earth’s surface, implications for teaching Serious game, robot pedagogy, cognitive mediation, activity analysis, last section of kindergarten Earth science curriculum, student learning, quality assessment, validity and reliability study, survey development Biology, competencies, national / global context, PISA, school-based exams Shape of the earth, location of people on earth, the day/night cycle, mental models, children IBSE, primary school, Intentio, institutional science education project Didactics, Physics Sciences, modelling activities, electrostatics field Physics learning, preschool, formation of the shadows, early science education, drawings education education Early childhood, cultural-historical, sociocultural, early years, science education, technology education, engineering education. Mixed method, sequential analysis, inquiry Ancient remains, amphorae, mediation Theory based structure of knowledge; nucleus-body-periphery structure of theory; cultural content knowledge (CCK); cultural knowledge of the weight concept Technological education, teaching practices, computers practices, process of transmission - appropriation, information and communication technology Learning Analytics, epistemology, methodology, ethics Area Measurement, teaching area measurement, measurement tools, elementary school Scientific partnerships, citizen science, teaching practices, science teaching Action, reason, geometric middle, developmental perspective, International Center for Genetic Epistemology Serious game, learning, knowledge, skills, elementary school. Physics education, world image, theories and preoccupations, change of ideas Children, ICT, technology, home, early childhood education Oral health, dental caries, children’s ideas, oral health practices, pre-school education Science education, participatory science, authenticity of learning, teaching practices, school-scientist partnerships education Participation, early mathematics, mathematising process, children’s initiatives, play pedagogies Science education, scientific revolution, history and philosophy of science and Material and virtual resources, praxeology, task, technique, technology, register, number sense, place-value system, Chinese abacus Science and mathematics education education Chemical reaction, MBL, Lebanon, labwork Primary education, investigative approach, scientific and technological activities Spatial skills, programming cards, Scratch Jr, tangible material, code learning Science exhibitions, technoscientific issues, practice and process, communicating controversy in science, critical viewer, negotiation Technology education, curriculum, gender Contradictions, conflicts, turning points, early childhood, science education, motives, demands, everyday concepts, scientific concepts PhD studies, PhD student, supervisor, research problem Avalanche, joint action theory for didactics (JATD), physics, resources, science communication education Science disaffection, aims of science education, didactics, educational policy and administration education Explanations construction, teaching, sciences, preschool Content analysis, qualitative research, primary school, scientific research activity History and Philosophy of Science, History and Philosophy of Mathematics, HP&ST Summer programs, females, Mathematics, middle school, motivation, self-efficacy Scolarisation des élèves handicapés; habiletés éducatives; gestes professionnels d’ajustement; auxiliaire de vie scolaire; école primaire française Indigenous education, biology education, models, living beings classification Concept force, didactic transposition, mathematical approach, students’ difficulties misconceptions Digital technology, documentation work, programming, students’ autonomy, teacher education education Environmental education, environmental issues, social representations, word associations, environmental conceptions Science, investigation, école primaire, élèves en situation de handicap Nature of Science, history of science, balance of nature Teaching physics, energy concept, systems of signs, inscriptions, semiotic resources Science education, precursor models construction, flotation, teaching and learning strategy, preschool education. Health literacy, kindergarten teacher, qualitative research, content analysis Inquiry based teaching, formulation of hypotheses, buoyancy, manipulation, students' ideas Learning material; knowledge structures; WPW learning model; content specialization; engagement; heteroglossia Early childhood science, drawing, young children’s ideas, change of state France, history of science, teaching, experimental sciences, Volta. Problems solving, knowledge, task, declarative, procedural, hierarchy Inquiry-Based Science Education, biology in early childhood education, teaching practices in kindergarten, learning practices in kindergarten Health education, educational styles, biomedical model, health promotion, textbooks Science Education, Mathematics Education, international testing, school curricula Educative robotics, primary school, learning, micro-genetics approach, activity analysis Pointe-à-Callière, archaeology, history, educative and cultural mediation, discovery experience |
| spellingShingle |
Pedagogical Content Knowledge, PCK, Knowledge acquisition, Inquiry-Based Science Education, science Energy, conservation, transformation, equivalence, history of science Transfer of energy, mechanical work, heat, semiotic actions, inscriptions Teleology, biology, chemistry, physics Analyse of the activity, strategy, behaviour, spreadsheet, learning education Nature of science, history of science, science teaching Total force on an immersed body, physics textbooks Teacher training, mathematics teaching, scheme, instrument Geology, Biology, time, explanatory register, obstacles Energy, transformation, vertical path, primary, middle school Issue, problem solving, preschool children, argumentation, STEM, engineering education Community, resources, teachers science education Inquiry-based science education, primary science education, teacher support, class observation, France education Waves, problem solving, interferences, sine function, graphical representation Geophysical entities, preschool children’s representations, earth’s surface, implications for teaching Serious game, robot pedagogy, cognitive mediation, activity analysis, last section of kindergarten Earth science curriculum, student learning, quality assessment, validity and reliability study, survey development Biology, competencies, national / global context, PISA, school-based exams Shape of the earth, location of people on earth, the day/night cycle, mental models, children IBSE, primary school, Intentio, institutional science education project Didactics, Physics Sciences, modelling activities, electrostatics field Physics learning, preschool, formation of the shadows, early science education, drawings education education Early childhood, cultural-historical, sociocultural, early years, science education, technology education, engineering education. Mixed method, sequential analysis, inquiry Ancient remains, amphorae, mediation Theory based structure of knowledge; nucleus-body-periphery structure of theory; cultural content knowledge (CCK); cultural knowledge of the weight concept Technological education, teaching practices, computers practices, process of transmission - appropriation, information and communication technology Learning Analytics, epistemology, methodology, ethics Area Measurement, teaching area measurement, measurement tools, elementary school Scientific partnerships, citizen science, teaching practices, science teaching Action, reason, geometric middle, developmental perspective, International Center for Genetic Epistemology Serious game, learning, knowledge, skills, elementary school. Physics education, world image, theories and preoccupations, change of ideas Children, ICT, technology, home, early childhood education Oral health, dental caries, children’s ideas, oral health practices, pre-school education Science education, participatory science, authenticity of learning, teaching practices, school-scientist partnerships education Participation, early mathematics, mathematising process, children’s initiatives, play pedagogies Science education, scientific revolution, history and philosophy of science and Material and virtual resources, praxeology, task, technique, technology, register, number sense, place-value system, Chinese abacus Science and mathematics education education Chemical reaction, MBL, Lebanon, labwork Primary education, investigative approach, scientific and technological activities Spatial skills, programming cards, Scratch Jr, tangible material, code learning Science exhibitions, technoscientific issues, practice and process, communicating controversy in science, critical viewer, negotiation Technology education, curriculum, gender Contradictions, conflicts, turning points, early childhood, science education, motives, demands, everyday concepts, scientific concepts PhD studies, PhD student, supervisor, research problem Avalanche, joint action theory for didactics (JATD), physics, resources, science communication education Science disaffection, aims of science education, didactics, educational policy and administration education Explanations construction, teaching, sciences, preschool Content analysis, qualitative research, primary school, scientific research activity History and Philosophy of Science, History and Philosophy of Mathematics, HP&ST Summer programs, females, Mathematics, middle school, motivation, self-efficacy Scolarisation des élèves handicapés; habiletés éducatives; gestes professionnels d’ajustement; auxiliaire de vie scolaire; école primaire française Indigenous education, biology education, models, living beings classification Concept force, didactic transposition, mathematical approach, students’ difficulties misconceptions Digital technology, documentation work, programming, students’ autonomy, teacher education education Environmental education, environmental issues, social representations, word associations, environmental conceptions Science, investigation, école primaire, élèves en situation de handicap Nature of Science, history of science, balance of nature Teaching physics, energy concept, systems of signs, inscriptions, semiotic resources Science education, precursor models construction, flotation, teaching and learning strategy, preschool education. Health literacy, kindergarten teacher, qualitative research, content analysis Inquiry based teaching, formulation of hypotheses, buoyancy, manipulation, students' ideas Learning material; knowledge structures; WPW learning model; content specialization; engagement; heteroglossia Early childhood science, drawing, young children’s ideas, change of state France, history of science, teaching, experimental sciences, Volta. Problems solving, knowledge, task, declarative, procedural, hierarchy Inquiry-Based Science Education, biology in early childhood education, teaching practices in kindergarten, learning practices in kindergarten Health education, educational styles, biomedical model, health promotion, textbooks Science Education, Mathematics Education, international testing, school curricula Educative robotics, primary school, learning, micro-genetics approach, activity analysis Pointe-à-Callière, archaeology, history, educative and cultural mediation, discovery experience KAMPOURAKIS, KOSTAS Teleology in biology, chemistry and physics education: what primary teachers should know |
| topic_facet |
Pedagogical Content Knowledge, PCK, Knowledge acquisition, Inquiry-Based Science Education, science Energy, conservation, transformation, equivalence, history of science Transfer of energy, mechanical work, heat, semiotic actions, inscriptions Teleology, biology, chemistry, physics Analyse of the activity, strategy, behaviour, spreadsheet, learning education Nature of science, history of science, science teaching Total force on an immersed body, physics textbooks Teacher training, mathematics teaching, scheme, instrument Geology, Biology, time, explanatory register, obstacles Energy, transformation, vertical path, primary, middle school Issue, problem solving, preschool children, argumentation, STEM, engineering education Community, resources, teachers science education Inquiry-based science education, primary science education, teacher support, class observation, France education Waves, problem solving, interferences, sine function, graphical representation Geophysical entities, preschool children’s representations, earth’s surface, implications for teaching Serious game, robot pedagogy, cognitive mediation, activity analysis, last section of kindergarten Earth science curriculum, student learning, quality assessment, validity and reliability study, survey development Biology, competencies, national / global context, PISA, school-based exams Shape of the earth, location of people on earth, the day/night cycle, mental models, children IBSE, primary school, Intentio, institutional science education project Didactics, Physics Sciences, modelling activities, electrostatics field Physics learning, preschool, formation of the shadows, early science education, drawings education education Early childhood, cultural-historical, sociocultural, early years, science education, technology education, engineering education. Mixed method, sequential analysis, inquiry Ancient remains, amphorae, mediation Theory based structure of knowledge; nucleus-body-periphery structure of theory; cultural content knowledge (CCK); cultural knowledge of the weight concept Technological education, teaching practices, computers practices, process of transmission - appropriation, information and communication technology Learning Analytics, epistemology, methodology, ethics Area Measurement, teaching area measurement, measurement tools, elementary school Scientific partnerships, citizen science, teaching practices, science teaching Action, reason, geometric middle, developmental perspective, International Center for Genetic Epistemology Serious game, learning, knowledge, skills, elementary school. Physics education, world image, theories and preoccupations, change of ideas Children, ICT, technology, home, early childhood education Oral health, dental caries, children’s ideas, oral health practices, pre-school education Science education, participatory science, authenticity of learning, teaching practices, school-scientist partnerships education Participation, early mathematics, mathematising process, children’s initiatives, play pedagogies Science education, scientific revolution, history and philosophy of science and Material and virtual resources, praxeology, task, technique, technology, register, number sense, place-value system, Chinese abacus Science and mathematics education education Chemical reaction, MBL, Lebanon, labwork Primary education, investigative approach, scientific and technological activities Spatial skills, programming cards, Scratch Jr, tangible material, code learning Science exhibitions, technoscientific issues, practice and process, communicating controversy in science, critical viewer, negotiation Technology education, curriculum, gender Contradictions, conflicts, turning points, early childhood, science education, motives, demands, everyday concepts, scientific concepts PhD studies, PhD student, supervisor, research problem Avalanche, joint action theory for didactics (JATD), physics, resources, science communication education Science disaffection, aims of science education, didactics, educational policy and administration education Explanations construction, teaching, sciences, preschool Content analysis, qualitative research, primary school, scientific research activity History and Philosophy of Science, History and Philosophy of Mathematics, HP&ST Summer programs, females, Mathematics, middle school, motivation, self-efficacy Scolarisation des élèves handicapés; habiletés éducatives; gestes professionnels d’ajustement; auxiliaire de vie scolaire; école primaire française Indigenous education, biology education, models, living beings classification Concept force, didactic transposition, mathematical approach, students’ difficulties misconceptions Digital technology, documentation work, programming, students’ autonomy, teacher education education Environmental education, environmental issues, social representations, word associations, environmental conceptions Science, investigation, école primaire, élèves en situation de handicap Nature of Science, history of science, balance of nature Teaching physics, energy concept, systems of signs, inscriptions, semiotic resources Science education, precursor models construction, flotation, teaching and learning strategy, preschool education. Health literacy, kindergarten teacher, qualitative research, content analysis Inquiry based teaching, formulation of hypotheses, buoyancy, manipulation, students' ideas Learning material; knowledge structures; WPW learning model; content specialization; engagement; heteroglossia Early childhood science, drawing, young children’s ideas, change of state France, history of science, teaching, experimental sciences, Volta. Problems solving, knowledge, task, declarative, procedural, hierarchy Inquiry-Based Science Education, biology in early childhood education, teaching practices in kindergarten, learning practices in kindergarten Health education, educational styles, biomedical model, health promotion, textbooks Science Education, Mathematics Education, international testing, school curricula Educative robotics, primary school, learning, micro-genetics approach, activity analysis Pointe-à-Callière, archaeology, history, educative and cultural mediation, discovery experience |
| format |
Online |
| author |
KAMPOURAKIS, KOSTAS |
| author_facet |
KAMPOURAKIS, KOSTAS |
| author_sort |
KAMPOURAKIS, KOSTAS |
| title |
Teleology in biology, chemistry and physics education: what primary teachers should know |
| title_short |
Teleology in biology, chemistry and physics education: what primary teachers should know |
| title_full |
Teleology in biology, chemistry and physics education: what primary teachers should know |
| title_fullStr |
Teleology in biology, chemistry and physics education: what primary teachers should know |
| title_full_unstemmed |
Teleology in biology, chemistry and physics education: what primary teachers should know |
| title_sort |
teleology in biology, chemistry and physics education: what primary teachers should know |
| description |
Recent research in cognitive psychology suggests that children develop intuitions that may clash with what is accepted by scientists, thus making certain scientific concepts difficult to understand. Children possess intuitions about design and purpose that make them provide teleological explanations to many different sorts of tasks. One possible explanation for the origin of the bias to view objects as made for something derives from an early sensitivity to intentional agents and to their behavior as intentional object users and object makers. What is important is that teleological explanations may not be exclusively restricted in biological phenomena, as commonly assumed. Consequently, primary school teachers should take that into account when teaching biology, chemistry or physics concepts and try to refrain from enforcing students’ teleological intuitions |
| publisher |
Urray |
| publishDate |
2012 |
| url |
https://pasithee.library.upatras.gr/review/article/view/111 |
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