Science educators advocate hands on experiences and the use of manipulatives as important for children's conceptual development. Consequently, the utilisation of Lego robotic technologies in teaching and learning has become more prevalent in school science classrooms. It is important to investigate their value as educational tools, particularly their role in helping children develop conceptual understanding of scientific principles. The purpose of this study was to explore the effectiveness of robotic technology with elementary age children, specifically focusing on the children's conceptual development concerning gear function and mechanical advantage. Our results indicate the robot sessions helped develop the students' understanding of gear function in relation to direction of turning, relative speed, and number of revolutions. However, when we examine the children's understanding around the concept of mechanical advantage, we still see the majority of children unable to provide an accurate explanation. The children had difficulty explaining the reasons underpinning their gear arrangement choices for making their robots fast or powerful. The results suggest that providing students with physical experiences is not enough for students to "discover" the relationship of gears to a vehicle's power and speed. A guided inquiry instructional approach is important during the early stages of developing a conceptual understanding of mechanical advantage.
IntroductionRooted in constructivist theories of learning, science educators advocate hands on experiences and the use of manipulatives as important for children's conceptual development. In concert with this notion, the use of simple robotic building technologies (e.g. LEGO Mindstorms) in teaching and learning has become more prevalent in school science and technology classrooms. It is important to investigate their value as educational tools, particularly their role in helping children develop conceptual understanding of scientific principles. The purpose of this study was to explore the effectiveness of robotic building technology with elementary age children, specifically focusing on the children's conceptual development about gears in a problem solving context. Children in a Year four classroom (8 to 9 years of age) were asked to build a LEGO Mindstorms robot and, through manipulation of the gear configuration, to examine the function of gears with respect to: a) direction of turning, b) relative speed, c) the number of revolutions, and d) mechanical advantages concerning the principles of power and speed. Of particular interest, and the focus for this paper, is the children's conceptual development and understanding concerning
A review of Bringing the Biosphere Home: Learning to Perceive Global Environmental Change, by Mitchell Thomashow, 2002. Cambridge: The MIT Press, 244pp. ISBN 0262201372. $18.00 USD.
Through a provincially funded project, teachers in a Grade 2 and a Grade 6 class were able to develop best practices as they incorporated the environment as the teaching text for developing critical literacy skills with their students. The findings showed significant improvement in literacy abilities and foundational skills, particularly for Aboriginal students and marginalized learners. Additionally, the children in the study developed an attitude of respect and caring for their place, the environment, and for one another. Framed by ecosocial theory, this research demonstrated the children’s abilities to utilize critical literacy skills to “read their world” and take action.
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