Max Longhurst

Gaming as a Platform for Developing Science Practices

ABSTRACT Gaming, an integral part of many students’ lives outside school, can provide an engaging platform for focusing students on important disciplinary core concepts as an entry into developing students’ understanding of these concepts through science practices. This article highlights how S’cape can be used to support student learning aligned with the most recent standards documents. Through combining students’ initial engagement in a motivating gaming experience with a two-experiment scaffolded inquiry sequence enhanced with information literacy-targeted homework, this article reveals how support can be offered for asking questions, planning and carrying out investigations, analyzing and interpreting data, constructing explanations, and engaging in argument from evidence to refine understandings of core concepts. We believe that as science teachers strive to explore important concepts with students through allowing them to actually practice science, games such as S’cape strategically leveraged and sequenced with scaffolded inquiry experiences can support these efforts.

Investigating Human Impact in the Environment with Faded Scaffolded Inquiry Supported by Technologies.

ABSTRACT Teaching science as inquiry is advocated in all national science education documents and by leading science and science teaching organizations. In addition to teaching science as inquiry, we recognize that learning experiences need to connect to students’ lives. This article details how we use a sequence of faded scaffolded inquiry supported by technologies to engage students meaningfully in science connected to their lives and schoolyards. In this approach, more teacher guidance is provided earlier in the inquiry experiences before this is faded later in the sequence, as students are better prepared to complete successful inquiries. The sequence of inquiry experiences shared in this article offers one possible mechanism for science teaching supported by technologies as an exemplar for translating teaching “science as inquiry” into practice.

Teacher learning in technology professional development and its impact on student achievement in science

ABSTRACT This research investigated teacher learning and teacher beliefs in a two-year technology professional development (TPD) for teachers and its impact on their student achievement in science in the western part of the United States. Middle-school science teachers participated in TPD focused on information communication technologies (ICTs) and their applications in science inquiry pedagogy. Three self-reporting teacher instruments were used alongside their student achievement scores on the end-of-year state-science-test. The teacher self-reporting measures investigated technological literacy, ICT capabilities, and pedagogical beliefs about science inquiry pedagogy. Data were collected every year, and descriptive statistics, t-tests, and Pearson’s correlations were used for analysis. We found teachers’ technological skills and ICT capabilities increasing over time with significant gains each year. Additionally, teachers’ pedagogical beliefs changed to become more science inquiry oriented over time; however, the gains were not significant until after the second year of TPD. Comparisons of teacher learning and belief measures with student achievement revealed that the students’ performance was correlated to teachers’ pedagogical beliefs about science inquiry, but not to their technological skills nor to their ICT capabilities. This research suggests that pedagogical considerations should be foregrounded in TPD and that this may require more longitudinal TPD to ensure that technology integration in science instruction is consequential to student learning.

Factors Influencing Teacher Appropriation of Professional Learning Focused on the Use of Technology in Science Classrooms.

Abstract Understanding factors that impact teacher implementation of learning from professional development is critical in order to maximize the educational and financial investment in teacher professional learning. This multi-case qualitative investigation elucidates factors that influence the appropriation of instructional tools associated with professional development focused on technology within science classrooms using activity theory as a theoretical framework. This framework has the capacity to account for multiple elements in professional learning. Implementation variability associated with professional development adoption drives this inquiry to search for better understandings of the appropriation of pedagogical practices. Purposeful sampling was used to identify four participants from a group of science teachers engaged in professional development designed to investigate how cyber-enabled technologies might enhance instruction and learning in eighth-grade science classrooms. The data from this investigation add to the literature of appropriation of instructional practices by connecting the conceptual and practical dispositions of teachers with an appropriation hierarchy.