An Inquiry-Based Contextual Approach as the Primary Mode of Learning Science with Microcomputer-Based Laboratory Technology

Science instruction can be designed to be laboratory-data driven. We report on an investigation of the use of thematic inquiry-based tasks with active incorporation of mathematics, science, and microcomputer-based laboratory technology in standards-correlated activities that enhanced learning experiences. Activities involved students in two major contexts: forensic science investigations and environmental science issues. The core of the project consisted of an analysis of students' proficiency in dealing with discipline-specific content, and of their development of critical thinking process skills. Significant gains were observed in both content proficiency and improvement on critical thinking skills, most noticeably those involving meta-cognitive processes. An interesting and unexpected feature of tool use emerged from the data that provides exciting opportunities for further research. The results provide evidence that such an instructional approach can have a dramatic impact on the development of students' mastery of content and laboratory performance measures of the science material that they encounter.

[1]  D. Suthers,et al.  “Mapping to know”: The effects of representational guidance and reflective assessment on scientific inquiry , 2002 .

[2]  David Klahr,et al.  Error Matters: An Initial Exploration of Elementary School Children's Understanding of Experimental Error , 2003 .

[3]  Vincent N. Lunetta,et al.  The Laboratory in Science Education: Foundations for the Twenty-First Century , 2004 .

[4]  Rafi Nachmias,et al.  Cognitive consequences of microcomputer-based laboratories: Graphing skills development* , 1987 .

[5]  Lincoln Quillian,et al.  Review of Measuring Racial Discrimination by the Panel on Methods for Assessing Discrimination of the National Research Council (National Academies Press): Contemporary Sociology , 2006 .

[6]  Carol L. Stuessy,et al.  Advantages of Micro-Based Labs: Electronic Data Acquisition, Computerized Graphing, or Both?. , 1989 .

[7]  J. Mokros,et al.  The impact of microcomputer‐based labs on children's ability to interpret graphs , 1987 .

[8]  J. Bruner The act of discovery. , 1961 .

[9]  Avi Hofstein,et al.  The Role of the Laboratory in Science Teaching: Neglected Aspects of Research , 1982 .

[10]  Derek Hodson,et al.  A Critical Look at Practical Work in School Science. , 1990 .

[11]  Wolff-Michael Roth,et al.  Data and graph interpretation practices among preservice science teachers , 2005 .

[12]  R. Gagne The learning requirements for enquiry , 1963 .

[13]  Kenneth Tobin,et al.  What happens in high school science classrooms , 1987 .

[14]  Corinne Zimmerman The development of scientific reasoning skills. , 2000 .

[15]  Andrea A. diSessa,et al.  Changing Minds: Computers, Learning, and Literacy , 2000 .

[16]  Fernando Espinoza,et al.  The Use of Graphical Analysis with Microcomputer-Based Laboratories to Implement Inquiry as the Primary Mode of Learning Science , 2007 .

[17]  Rafi Nachmias,et al.  Learning Scientific Reasoning Skills in Microcomputer-Based Laboratories , 1990 .

[18]  R. M. Taylor,et al.  Pupil performance in graphical tasks and its relationship to the ability to handle variables , 1994 .

[19]  Carla Zembal-Saul,et al.  Learning to Teach with Technology Model: Implementation in Secondary Science Teacher Education , 2001 .

[20]  Dorit Maor,et al.  Use of classroom environment perceptions in evaluating inquiry‐based computer‐assisted learning , 1996 .

[21]  Connie Sparks The Role of the Laboratory in Science Teaching. , 1994 .

[22]  John Settlage,et al.  Children's Conceptions of Light in the Context of a Technology Based Curriculum , 1995 .

[23]  P. Whitney,et al.  Practical Disease Modelling with Fruits, Seeds, Bulbs and Tubers. , 1989 .

[24]  Fred M. Newmann,et al.  Five Standards of Authentic Instruction. , 1993 .

[25]  Joseph J. Schwab The Teaching of Science as Inquiry , 1958 .

[26]  D. Klahr,et al.  All other things being equal: acquisition and transfer of the control of variables strategy. , 1999, Child development.