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Full-Text Articles in Instructional Media Design
Design And Assessment Of Deep And Active Learning In Science, Technology, Engineering, And Mathematics (Stem) Education, Juhong Christie Liu Ph.D., Elizabeth Johnson Ph.D., Jin Joy Mao Ph.D.
Design And Assessment Of Deep And Active Learning In Science, Technology, Engineering, And Mathematics (Stem) Education, Juhong Christie Liu Ph.D., Elizabeth Johnson Ph.D., Jin Joy Mao Ph.D.
Libraries
This presentation draws academic significance from a focused literature review and initial data for learning design in Science, Technology, Engineering, and Mathematics (STEM) education. The presenters will discuss strategies of fostering deep, active learning, alignment with assessment, and development of assessment instruments and methods. The presenters will share the design and development of an assessment kit to measure learning outcomes that matter in the 21st century STEM education. Through shared evidence and interactive reflection, the audience will take away up-to-date design strategies for deep and active learning as well as assessment in STEM education. The project is sponsored by National …
Stitching Codeable Circuits: High School Students' Learning About Circuitry And Coding With Electronic Textiles, Breanne Krystine Litts, Yasmin B. Kafai, Debora A. Lui, Justice T. Walker, Sari A. Widman
Stitching Codeable Circuits: High School Students' Learning About Circuitry And Coding With Electronic Textiles, Breanne Krystine Litts, Yasmin B. Kafai, Debora A. Lui, Justice T. Walker, Sari A. Widman
Instructional Technology and Learning Sciences Faculty Publications
Learning about circuitry by connecting a battery, light bulb, and wires is a common activity in many science classrooms. In this paper, we expand students’ learning about circuitry with electronic textiles, which use conductive thread instead of wires and sewable LEDs instead of lightbulbs, by integrating programming sensor inputs and light outputs and examining how the two domains interact.We implemented an electronic textiles unit with 23 high school students ages 16–17 years who learned how to craft and code circuits with the LilyPad Arduino, an electronic textile construction kit. Our analyses not only confirm significant increases in students’ understanding of …