Science

Ensuring that all students, including English language learners (ELLs) who speak English as a second language, succeed in science is more challenging with a shift towards learning through language-intensive science practices suggested by the Next Generation Science Standards (NGSS). Interactive visualization technologies have the potential to support science learning for all students, including ELLs, by providing explicit representations of unobservable scientific systems.

In A Framework for K-12 Science Education, the National Research Council frames inclusive science instruction as a collection of strategies for teachers to engage students. In this conceptual article, we reframe inclusive science instruction by examining the literature in science and multicultural education and describe five elements to support teachers in realizing inclusive science instruction as a pedagogical shift.

This proof of concept study investigated a secondary science teacher preparation intervention in six university programs across Arizona, California, and Texas. Researchers and science method instructors (SMIs) collaboratively restructured respective science method courses to hold fidelity to an interrelated set of instructional practices that attend to science learning as envisioned in a Framework for K–12 Science Education, while also creating contextualized spaces for language and literacy development targeted to English learners (ELs), but also supportive of “mainstream” students.

This column describes creating a classroom culture for engineering. Noting the importance of infiltration in the water cycle and in the supply of essential groundwater led the authors to develop an engineering activity in which students are challenged to build a stackable filter using the Earth process of infiltration as a model.

Kilpatrick, J., Marcum-Dietrich, N., Wallace, J., & Staudt, C. (2018). Engineering Encounters: Engineering a Model of the Earth as a Water Filter. Science and Children.