The development of six curricular projects that integrate mathematics based on the Common Core Mathematics Standards with science concepts from the Next Generation Science Standards combined with an engineering design pedagogy is the focus of this CAREER project.
The development of six curricular projects that integrate mathematics based on the Common Core Mathematics Standards with science concepts from the Next Generation Science Standards combined with an engineering design pedagogy is the focus of this DRK-12 CAREER project from the University of Virginia. Research on the learning sciences with a focus on a knowledge integration perspective of helping students build and retain connections among normative and relevant ideas and existing knowledge structures the development of the WiseEngineering learning environment, an online learning management system that scaffolds engineering design projects. WiseEngineering provides support for students and teachers to conduct engineering design projects in middle and high school settings. Dynamic virtualizations that enable learners to observe and experiment with phenomena are combined with knowledge integration patterns to structure a technology rich learning environments for students. The research focuses on the ways in which metacognition, namely self-knowledge and self-regulation interact with learning in these technology-enhanced environments. Embedded assessments and student pre and post-testing of key science and mathematics constructs provide evidence of the development of student understanding. A rubric that examines knowledge integration is used to examine the extent to which students understand how multiple concepts interact in a given context. A mixed-methods research design will examine how students and teachers in middle school mathematics and science courses develop understanding of the underlying principles in STEM.
Engineering design is a key area of the Next Generation Science Standards that requires additional curricular materials development and research on how students integrate concepts across mathematics and science to engage in these engineering practices. The technology-rich learning environment, WISEngineering, provides the context to examine how student engineering design principles evolve over time. The opportunitiy for students to provide critiques of each others' work provides the context in which to examine crucial metacognitive principles. Classroom observations and teacher interviews provides the opportunity to examine how the technology-rich engineering design learning environment integrates STEM knowledge for teachers as well as students.