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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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  75. 75
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  76. 76
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  77. 77
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  78. 78
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  79. 79
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  80. 80
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  81. 81
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  82. 82
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  83. 83
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  84. 84
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  85. 85
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  86. 86
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  87. 87
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  88. 88
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  89. 89
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  90. 90
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  91. 91
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  92. 92
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  93. You have free access to this content93
    Elizabeth A. Davis, Julie Smithey, Beginning teachers moving toward effective elementary science teaching, Science Education, 2009, 93, 4
  94. 94
    Jacqueline Leonard, Norma Boakes, Cara M. Moore, Conducting science inquiry in primary classrooms: Case studies of two preservice teachers’ inquiry-based practices, Journal of Elementary Science Education, 2009, 21, 1, 27

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  95. 95
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  96. 96
    Ling L. Liang, Greer M. Richardson, Enhancing prospective teachers’ science teaching efficacy beliefs through scaffolded, student-directed inquiry, Journal of Elementary Science Education, 2009, 21, 1, 51

    CrossRef

  97. 97
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  98. 98
    Carrie J. Beyer, Cesar Delgado, Elizabeth A. Davis, Joseph Krajcik, Investigating teacher learning supports in high school biology curricular programs to inform the design of educative curriculum materials, Journal of Research in Science Teaching, 2009, 46, 9
  99. 99
    Elaine V. Howes, Miyoun Lim, Jaclyn Campos, Journeys into inquiry-based elementary science: Literacy practices, questioning, and empirical study, Science Education, 2009, 93, 2
  100. 100
    Christine M. Dietz, Elizabeth A. Davis, Preservice Elementary Teachers’ Reflection on Narrative Images of Inquiry, Journal of Science Teacher Education, 2009, 20, 3, 219

    CrossRef

  101. 101
    J. Lawrence Bencze, G. Michael Bowen, Student-teachers’ Dialectically Developed Motivation for Promoting Student-led Science Projects, International Journal of Science and Mathematics Education, 2009, 7, 1, 133

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  102. 102
    Christine Lotter, Jonathan Singer, Jenice Godley, The Influence of Repeated Teaching and Reflection on Preservice Teachers’ Views of Inquiry and Nature of Science, Journal of Science Teacher Education, 2009, 20, 6, 553

    CrossRef

  103. 103
    E. A. Johnson, K. M. Catley, Urban soil ecology as a focal point for environmental education, Urban Ecosystems, 2009, 12, 1, 79

    CrossRef

  104. 104
    Mark Windschitl, Jessica Thompson, Melissa Braaten, Beyond the scientific method: Model-based inquiry as a new paradigm of preference for school science investigations, Science Education, 2008, 92, 5
  105. 105
    Christine Moseley, Sarah J. Ramsey, Elementary Teachers' Progressive Understanding of Inquiry through the Process of Reflection, School Science and Mathematics, 2008, 108, 2
  106. 106
    Dorit Taitelbaum, Rachel Mamlok-Naaman, Miriam Carmeli, Avi Hofstein, Evidence for Teachers’ Change While Participating in a Continuous Professional Development Programme and Implementing the Inquiry Approach in the Chemistry Laboratory, International Journal of Science Education, 2008, 30, 5, 593

    CrossRef

  107. 107
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    CrossRef

  108. 108
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    CrossRef

  109. 109
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    CrossRef

  110. 110
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    CrossRef

  111. 111
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    CrossRef

  112. 112
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    CrossRef

  113. 113
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  114. 114
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    CrossRef

  115. 115
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  116. 116
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  117. 117
    Barak Miri, Ben-Chaim David, Zoller Uri, Purposely Teaching for the Promotion of Higher-order Thinking Skills: A Case of Critical Thinking, Research in Science Education, 2007, 37, 4, 353

    CrossRef

  118. You have free access to this content118
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  119. 119
    Minchi C. Kim, Michael J. Hannafin, Lynn A. Bryan, Technology-enhanced inquiry tools in science education: An emerging pedagogical framework for classroom practice, Science Education, 2007, 91, 6
  120. 120
    Michal Zion, Smadar Cohen, Ruth Amir, The Spectrum of Dynamic Inquiry Teaching Practices, Research in Science Education, 2007, 37, 4, 423

    CrossRef

  121. 121
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  122. 122
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    CrossRef

  123. 123
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  124. 124
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  125. 125
    J. Lawrence Bencze, Maurice Di Giuseppe, Explorations of a Paradox in Curriculum Control: Resistance to Open-ended Science Inquiry in a School for Self-directed Learning, Interchange, 2006, 37, 4, 333

    CrossRef

  126. 126
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  127. 127
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    CrossRef

  128. 128
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  129. 129
    Susan J. Hillman, Dan Rothermel, Grace Hotchkiss Scarano, The assessment of preservice teachers' dispositions, The Teacher Educator, 2006, 41, 4, 234

    CrossRef

  130. 130
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  131. 131
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    CrossRef

  132. 132
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  133. 133
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  134. 134
    Michal Zion, Michaela Slezak, It takes two to tango: In dynamic inquiry, the self-directed student acts in association with the facilitating teacher, Teaching and Teacher Education, 2005, 21, 7, 875

    CrossRef

  135. 135
    Shari L. Britner, Kevin D. Finson, Preservice teachers’ reflections on their growth in an inquiry-oriented science pedagogy course, Journal of Elementary Science Education, 2005, 17, 1, 39

    CrossRef

  136. 136
    Rosária Justi, Jan van Driel, The development of science teachers' knowledge on models and modelling: promoting, characterizing, and understanding the process, International Journal of Science Education, 2005, 27, 5, 549

    CrossRef

  137. You have free access to this content137
    Mark Windschitl, Folk theories of “inquiry:” How preservice teachers reproduce the discourse and practices of an atheoretical scientific method, Journal of Research in Science Teaching, 2004, 41, 5
  138. 138
    Larry Bencze, Leo Elshof, Science teachers as metascientists: an inductive–deductive dialectic immersion in northern alpine field ecology, International Journal of Science Education, 2004, 26, 12, 1507

    CrossRef