Students interact in a classroom environment in a daily basis – interacting with teachers, classmates, and even with technology. The effects that these peer interactions within the educational setting have been extensively studied in the field of education over the past 20 years and have been shown to improve students self-esteem and attitude towards the educational process. 7 Beyond these general improvements in students opinions on education and toward themselves, cooperative learning -the collaboration between peers to better understand unfamiliar topics has been shown to positively influence a student development reading strategies 6 , computational skills in mathematics 9 , and a conceptual understanding of physics within education settings 4 . As such, the understanding of peer interactions has played an important role in the way curriculum is developed for the established fields of education. With the relatively recent interest in expanding the educational curriculum frameworks to include concepts of engineering and technology, educators are looking for effective methods of addressing these new curriculum changes. However, engineering concepts are topics that are typically unfamiliar to teachers and few teacher have experience using educational technology related to engineering, like Lego Robolab program. 2 The lack of acquaintance with engineering concepts and technology lead many educators to developing this curriculum for their classroom. One possible education aid that these educators might encourage, based on its record in advancing student progress in other disciplines, is cooperative learning within their students. Little research exist that indicates what type of effect or even what type of interactions occur within a technological learning environment using engineering-based curriculum. The purpose of this study is to explore that question by determining the frequencies and effects of the peer interactions that occurred within an early-childhood robotic learning environment. Specifically, which of the underling concepts of the curriculum were most often used as the foundation of peer-interactions and how did those interactions appear to effect the children’s understanding of engineering methods and processes.
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