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  52. 52
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  57. 57
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  62. 62
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  64. 64
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  65. 65
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  66. 66
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  67. 67
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  69. 69
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  70. 70
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  71. 71
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  72. 72
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  73. 73
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  74. 74
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    CrossRef

  75. 75
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    CrossRef

  76. 76
    Ann R. Crawford, Gregory E. Chamblee, Russell J. Rowlett, Assessing concerns of algebra teachers during a curriculum reform: a constructivist approach, Journal of In-Service Education, 1998, 24, 2, 317

    CrossRef

  77. 77
    Mohan Tikoo, Integrating geometry in a meaningful way (a point of view), International Journal of Mathematical Education in Science and Technology, 1998, 29, 5, 663

    CrossRef

  78. 78
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    CrossRef

  79. 79
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    CrossRef

  80. 80
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    CrossRef

  81. 81
    E. Hausen-Tropper, A framework for a theory of automated learning, Theoretical Computer Science, 1996, 163, 1-2, 161

    CrossRef

  82. 82
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    CrossRef

  83. 83
    Ann C. Howe, Development of science concepts within a Vygotskian framework, Science Education, 1996, 80, 1
  84. 84
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    CrossRef

  85. 85
    Ian S. Ginns, James J. Watters, An analysis of scientific understandings of preservice elementary teacher education students, Journal of Research in Science Teaching, 1995, 32, 2
  86. 86
    M. Jayne Fleener, Susan L. Westbrook, Laura N. Rogers, Learning cycles for mathematics: An investigative approach to middle-school mathematics, The Journal of Mathematical Behavior, 1995, 14, 4, 437

    CrossRef

  87. 87
    Joan F. Goodman, “Work” versus “play” and early childhood care, Child & Youth Care Forum, 1994, 23, 3, 177

    CrossRef

  88. 88
    Cathryn L. Rudmann, A Review of the Use and Implementation of Science Field Trips, School Science and Mathematics, 1994, 94, 3
  89. 89
    Craig A. Berg, Darrell G. Phillips, An investigation of the relationship between logical thinking structures and the ability to construct and interpret line graphs, Journal of Research in Science Teaching, 1994, 31, 4
  90. 90
    JOAN F. GOODMAN, EARLY INTERVENTION FOR PRESCHOOLERS WITH DEVELOPMENTAL DELAYS: THE CASE FOR INCREASED CHILD COLLABORATION, Psychological Reports, 1994, 75, 1, 479

    CrossRef

  91. 91
    Edmund A. Marek, Constance Haack, Lisa McWhirter, Long-term use of learning cycles following inservice institutes, Journal of Science Teacher Education, 1994, 5, 2, 48

    CrossRef

  92. 92
    Silvia Caravita, Ola Halldén, Re-framing the problem of conceptual change, Learning and Instruction, 1994, 4, 1, 89

    CrossRef

  93. 93
    Joan F. Goodman, Elizabeth Pollak, An Analysis of the Core Cognitive Curriculum in Early Intervention Programs, Early Education & Development, 1993, 4, 3, 193

    CrossRef

  94. 94
    Anton E. Lawson, Deductive reasoning, brain maturation, and science concept acquisition: Are they linked?, Journal of Research in Science Teaching, 1993, 30, 9
  95. 95
    Dennis H. Congos, Nancy Schoeps, Does supplemental instruction really work and what is it anyway?, Studies in Higher Education, 1993, 18, 2, 165

    CrossRef

  96. 96
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  97. 97
    James R. Yount, Phillip B. Horton, Factors influencing environmental attitude: The relationship between environmental attitude defensibility and cognitive reasoning level, Journal of Research in Science Teaching, 1992, 29, 10
  98. 98
    Alan K. Griffiths, Kirk R. Preston, Grade-12 students' misconceptions relating to fundamental characteristics of atoms and molecules, Journal of Research in Science Teaching, 1992, 29, 6
  99. 99
    Ita Cohen, Ruth Ben-Zvi, Improving student achievement in the topic of chemical energy by implementing new learning materials and strategies, International Journal of Science Education, 1992, 14, 2, 147

    CrossRef

  100. 100
    Yvonne J. Meichtry, Using Laboratory Experiences to Develop the Scientific Literacy of Middle School Students, School Science and Mathematics, 1992, 92, 8
  101. 101
    Edmund A. Marek, Suzanne B. Methven, Effects of the learning cycle upon student and classroom teacher performance, Journal of Research in Science Teaching, 1991, 28, 1
  102. 102
    Mansoor Niaz, Role of the epistemic subject in Piaget's genetic epistemology and its importance for science education, Journal of Research in Science Teaching, 1991, 28, 7
  103. 103
    Joy B. Tingle, Ron Good, Effects of cooperative grouping on stoichiometric problem solving in high school chemistry, Journal of Research in Science Teaching, 1990, 27, 7
  104. 104
    Historic Role-Playing, The American Biology Teacher, 1990, 52, 7, 439

    CrossRef

  105. 105
    Edmund A. Marek, Carol Eubanks, Thomas H. Gallaher, Teachers' understanding and the use of the learning cycle, Journal of Research in Science Teaching, 1990, 27, 9
  106. 106
    Teaching Hominid Evolution with a Data Base, The American Biology Teacher, 1990, 52, 4, 241

    CrossRef

  107. 107
    John W. Renner, Michael R. Abraham, Eileen Bross Grzybowski, Edmund A. Marek, Understandings and misunderstandings of eighth graders of four physics concepts found in textbooks, Journal of Research in Science Teaching, 1990, 27, 1
  108. 108
    Sheila D. Rose, Cultural studies and multiculturalism: An experiment in classroom twinning, Language, Culture and Curriculum, 1989, 2, 2, 117

    CrossRef

  109. 109
    Simulating the Learning Cycle, The American Biology Teacher, 1989, 51, 4, 246

    CrossRef

  110. 110
    George E. Glasson, The effects of hands-on and teacher demonstration laboratory methods on science achievement in relation to reasoning ability and prior knowledge, Journal of Research in Science Teaching, 1989, 26, 2
  111. 111
    Anton E. Lawson, A Better Way to Teach Biology, The American Biology Teacher, 1988, 50, 5, 266

    CrossRef

  112. 112
    B. J. Sandmann, Concept Overview, College Teaching, 1988, 36, 3, 120

    CrossRef

  113. 113
    DIANA M.R. TRIBE, A.J. TRIBE, LAWTEACH: A BRITISH APPROACH TO THE CASE METHOD, Journal of Legal Studies Education, 1988, 7, 1-2
  114. 114
    Diana M. Tribe, A.J. Tribe, Lawteach: An interactive method for effective large group teaching, Studies in Higher Education, 1987, 12, 3, 299

    CrossRef

  115. 115
    Jan Garrard, Learning in science: Some wider perspectives, Research in Science Education, 1987, 17, 1, 11

    CrossRef

  116. 116
    Bruce Perry, Patricia Obenauf, The acquisition of notions of qualitative speed: The importance of spatial and temporal alignment, Journal of Research in Science Teaching, 1987, 24, 6
  117. 117
    Anton E. Lawson, A neurological model of sensory-motor problem solving with possible implications for higher-order cognition and instruction, Journal of Research in Science Teaching, 1986, 23, 6
  118. 118
    Jan Garrard, Creative learning in science education, Research in Science Education, 1986, 16, 1, 1

    CrossRef

  119. 119
    Margaret Cusak, Marvin Wideen, Alden Sherwood, Teaching in junior secondary schools and its relationship to the development of formal operational thought, European Journal of Science Education, 1986, 8, 1, 95

    CrossRef

  120. 120
    STEIN ERIK ULVUND, Infant responses and the physical environment, Scandinavian Journal of Psychology, 1984, 25, 4
  121. 121
    Anton E. Lawson, Jonathan M. Bealer, The acquisition of basic quantitative reasoning skills during adolescence: Learning or development?, Journal of Research in Science Teaching, 1984, 21, 4
  122. 122
    Herbert G. Cohen, The effects of two teaching strategies utilizing manipulatives on the development of logical thought, Journal of Research in Science Teaching, 1984, 21, 8
  123. 123
    Peter W. Hewson, Mariana G. A'Beckett Hewson, The role of conceptual conflict in conceptual change and the design of science instruction, Instructional Science, 1984, 13, 1, 1

    CrossRef

  124. 124
    Chia Lian Sai, Goh Ngoh Khang, Lee Kam Wah, A Piagetian-Based Programme for Learning “Elements and Symbols”, Singapore Journal of Education, 1983, 5, 1, 20

    CrossRef

  125. 125
    Myra K. Vachon, Richard E. Haney, Analysis of Concepts in an Eighth Grade Science Textbook, School Science and Mathematics, 1983, 83, 3
  126. 126
    William Juraschek, Piaget and Middle School Mathematics, School Science and Mathematics, 1983, 83, 1
  127. 127
    Roger K. Purser, John W. Renner, Results of two tenth-grade biology teaching procedures, Science Education, 1983, 67, 1
  128. 128
    E. M. Crowther, The Sensitivity of Adolescents to the Processes of Change when Viewed in Relation to their own Lives∗, Educational Review, 1983, 35, 1, 15

    CrossRef

  129. 129
    Joseph Nussbaum, Shimshon Novick, Alternative frameworks, conceptual conflict and accommodation: Toward a principled teaching strategy, Instructional Science, 1982, 11, 3, 183

    CrossRef

  130. 130
    M. L. Aiello-Nicosia, R. M. Sperandeo-Mineo, An experimental study of the relationship between formal thinking and physics achievement, European Journal of Science Education, 1982, 4, 2, 203

    CrossRef

  131. 131
    Anne S. Lombard, Effects of reasoning workshops on the teaching strategies of secondary science teachers, Science Education, 1982, 66, 4
  132. 132
    SAIED H. JACOB, Piaget and Education: Aspects of a Theory, The Educational Forum, 1982, 46, 2, 221

    CrossRef

  133. 133
    James Hiebert, Thomas P. Carpenter, Piagetian tasks as readiness measures in mathematics instruction: A critical review, Educational Studies in Mathematics, 1982, 13, 3, 329

    CrossRef

  134. 134
    Herbert G. Cohen, Relationship between locus of control and the development of spatial conceptual abilities, Science Education, 1982, 66, 4
  135. 135
    Debbie L. Shepherd, John W. Renner, Student Understandings and Misunderstandings of States of Matter and Density Changes, School Science and Mathematics, 1982, 82, 8
  136. 136
    Eugene L. Chiappetta, J. Michael Russell, The relationship among logical thinking, problem sloving instruction, and knowledge and application of earth science subject matter, Science Education, 1982, 66, 1
  137. 137
    Stein Erik Ulvund, The Psychological Basis for the Identification of Physical Environmental Parameters in the Development of Early Cognitive Competence1,2, Scandinavian Journal of Educational Research, 1981, 25, 3, 125

    CrossRef

  138. 138
    Isobel Contento, Thinking about Nutrition: Assessing and Enhancing the Reasoning Skills of College Non-Major Nutrition Students, Home Economics Research Journal, 1981, 10, 2
  139. 139
    Mark C. Schug, What Educational Research Says about the Development of Economic Thinking, Theory & Research in Social Education, 1981, 9, 3, 25

    CrossRef

  140. 140
    PETER F. W. PREECE, A GEOMETRICAL MODEL OF PIAGETIAN CONSERVATION, Psychological Reports, 1980, 46, 1, 143

    CrossRef

  141. 141
    Livingston S. Schneider, John W. Renner, Concrete and formal teaching, Journal of Research in Science Teaching, 1980, 17, 6
  142. 142
    Joseph D. Novak, Joseph D. Novak, Michael J. Padilla, Lloyd Ollila, Effect of small-group teaching on acquisition and transfer of nonvisual seriation abilities, Science Education, 1980, 64, 3
  143. 143
    Charles R. Ward, J. Dudley Herron, Helping students understand formal chemical concepts, Journal of Research in Science Teaching, 1980, 17, 5
  144. 144
    Lawrence F. Lowery, Toward improving the science education research enterprise, Journal of Research in Science Teaching, 1980, 17, 4
  145. 145
    Cheung Yiu Lin, Imagery in mathematical thinking and learning, International Journal of Mathematical Education in Science and Technology, 1979, 10, 1, 107

    CrossRef

  146. 146
    Isobel Contento, Measuring and enhancing reasoning abilities of nutrition graduate students—A Piagetian approach, Journal of Nutrition Education, 1979, 11, 4, 184

    CrossRef

  147. 147
    Joseph P. Riley, Research papers: The influence of hands-on science process training on preservice teachers' acquisition of process skills and attitude toward science and science teaching, Journal of Research in Science Teaching, 1979, 16, 5
  148. 148
    Anton E. Lawson, The developmental learning paradigm, Journal of Research in Science Teaching, 1979, 16, 6
  149. 149
    Joseph Nussbaum, The effect of the SCIS'S “Relativity” unit on the child's conception of space, Journal of Research in Science Teaching, 1979, 16, 1
  150. 150
    Richard A. Walker, Jon R. Hendrix, Thomas R. Mertens, Written Piagetian task instrument: Its development and use, Science Education, 1979, 63, 2
  151. 151
    John W. Renner, Rosalie M. Grant, Joan Sutherland, Content and concrete thought, Science Education, 1978, 62, 2
  152. 152
    Elizabeth H. Hegarty, Levels of scientific enquiry in university science laboratory classes: Implications for curriculum deliberations, Research in Science Education, 1978, 8, 1, 45

    CrossRef

  153. 153
    STEVEN BARTLETT, Protocol Analysis in Creative Problem-Solving, The Journal of Creative Behavior, 1978, 12, 3
  154. 154
    J. Dudley Herron, Role of learning and development: Critique of Novak's comparison of Ausubel and Piaget, Science Education, 1978, 62, 4
  155. 155
    Alan E. Wheeler, Heidi Kass, Student misconceptions in chemical equilibrium, Science Education, 1978, 62, 2
  156. 156
    Anton E. Lawson, Robert Karplus, Helen Adi, The acquisition of propositional logic and formal operational schemata during the secondary school years, Journal of Research in Science Teaching, 1978, 15, 6
  157. 157
    John A. Henry, The transition from pre-operational to concrete-operational thinking: The effect of discrimination and classification activities, Journal of Research in Science Teaching, 1978, 15, 2
  158. 158
    Judy Reinhartz, To know why: Systematic science curriculum through learning centers, Science Education, 1978, 62, 2
  159. 159
    Joseph D. Novak, George I. Za'Rour, Angeliki L. Panaouri-Kilaniotis, Analytic styles of categorization and conservation abilities among greek cypriot children, Science Education, 1977, 61, 1
  160. 160
    David L. Dunlop, Frank Fazio, Piagetian Theory and Abstract Preferences of Secondary Science Students, School Science and Mathematics, 1977, 77, 1
  161. 161
    Eugenia Poporad Vanek, John J. Montean, The effect of two science programs (ess and laidlaw) on student classification skills, science achievement, and attitudes, Journal of Research in Science Teaching, 1977, 14, 1
  162. 162
    Jacqueline Spears, Dean Zollman, The influence of structured versus unstructured laboratory on students' understanding the process of science, Journal of Research in Science Teaching, 1977, 14, 1
  163. 163
    Joseph Nussbaum, Joseph D. Novak, An assessment of children's concepts of the earth utilizing structured interviews, Science Education, 1976, 60, 4
  164. 164
    Miles A. Nelson, Eugene C. Abraham, Discussion strategies and student cognitive skills, Science Education, 1976, 60, 1
  165. 165
    John W Renner, Significant physics content and intellectual development, Physics Education, 1976, 11, 7, 458

    CrossRef

  166. 166
    Raphael M. Nyiti, The Development of Conservation in the Meru Children of Tanzania, Child Development, 1976, 47, 4, 1122

    CrossRef

  167. 167
    Identifying Types of Thought in 10th-Grade Biology Students, The American Biology Teacher, 1975, 37, 5, 283

    CrossRef

  168. 168
    Eugene S. McNamara, H. Seymour Fowler, Out-of-Doors Earth Science One Reason Why, School Science and Mathematics, 1975, 75, 5
  169. 169
    Steve Sayre, Daniel W. Ball, Piagetian cognitive development and achievement in science, Journal of Research in Science Teaching, 1975, 12, 2
  170. 170
    Anton E. Lawson, Piagetian Theory and Biology Teaching, The American Biology Teacher, 1975, 37, 6, 336

    CrossRef

  171. 171
    Douglas Russell Macbeth, The extent to which pupils manipulate materials and attainment of process skills in elementary school science, Journal of Research in Science Teaching, 1974, 11, 1
  172. 172
    Donald E. Riechard, A decade of preschool science: Promises, problems, and perspectives, Science Education, 1973, 57, 4
  173. 173
    Miles A. Nelson, Discussion strategies and learning science principles, Journal of Research in Science Teaching, 1973, 10, 1
  174. 174
    Barry A. Kaufman, Psychological implications of discovery learning in science, Science Education, 1971, 55, 1
  175. 175
    Darbell G. Phillips, The development of the concept of displacement volume: A hierarchical model and its partial testing under two methods of presentation, Journal of Research in Science Teaching, 1971, 8, 1
  176. 176
    William Kessen, Cognitive Development and Epistemology, 1971,

    CrossRef

  177. 177
    Victor Y. Billeh, Milton O. Pella, Cultural bias in the attainment of concepts of the biological cell by elementary school children, Journal of Research in Science Teaching, 1970, 7, 2
  178. 178
    Carla Overbeck, Marian Schwartz, Training in conservation of weight, Journal of Experimental Child Psychology, 1970, 9, 2, 253

    CrossRef

  179. 179
    Alan M. Voelker, Concept Teaching and the Nature of the Scientific Enterprise, School Science and Mathematics, 1969, 69, 1
  180. 180
    Anthony J. Picard, Piaget's Theory of Development with Implications for Teaching Elementary School Mathematics, School Science and Mathematics, 1969, 69, 4
  181. 181
    A Students' Guide to Piaget, 1969,

    CrossRef

  182. 182
    Robert E. Lepper, Cross-cultural investigation of the development of selected piagetian science concepts, social status, and reading readiness, Journal of Research in Science Teaching, 1967, 5, 4
  183. 183
    Milton O. Pella, Russell L. Carey, Levels of maturity and levels of understanding for selected concepts of the particle nature of matter, Journal of Research in Science Teaching, 1967, 5, 3
  184. 184
    Chester E. Raun, David P. Butts, The relationship between the strategies of inquiry in science and Student Cognitive and Affective Behavioral Change, Journal of Research in Science Teaching, 1967, 5, 3
  185. 185
    W. J. Wilkinson, The new science teaching as seen in terms of educational and psychological theory, Contemporary Physics, 1965, 7, 1, 54

    CrossRef

  186. 186
    David Magnusson, Håkan Stattin, The Person in Context: A Holistic-Interactionistic Approach, Handbook of Child Psychology,