Our Watershed
Marcum-Dietrich, N., Kerlin, S., Staudt, C., & Daniels, M. (2018). Our watershed. The Science Teacher, 85(2).
In this article, students use data and models to make a difference in their own school yard.
Marcum-Dietrich, N., Kerlin, S., Staudt, C., & Daniels, M. (2018). Our watershed. The Science Teacher, 85(2).
In this article, students use data and models to make a difference in their own school yard.
Marcum-Dietrich, N., Kerlin, S., Staudt, C., & Daniels, M. (2018). Our watershed. The Science Teacher, 85(2).
In this article, students use data and models to make a difference in their own school yard.
We describe a four-step strategy used in our professional development program to help elementary science teachers recognize and create lesson plans with coherent conceptual storylines. The conceptual storyline of a lesson refers to sequencing its scientific concepts and activities to help students develop a main scientific idea and, often, is an implicit component of a lesson plan.
This article describes a four-step strategy used in our professional development program to help elementary science teachers recognize and create lesson plans with coherent conceptual storylines.
Measurement is paired with data as a fundamental domain of K–grade 5 mathematics in the Common Core State Standards, and it is one of five core content areas in NCTM’s Principles and Standards for School Mathematics. This book presents lively activities that dovetail with standards and research-based stages of development to support students’ steady growth of understanding of measurement.
A Pleasure to Measure will enable you to select activities quickly, easily, and confidently to target the content that your students are ready to learn. You’ll find everything that you need in the six E’s that the authors detail for each activity—Essentials, Engage, Explore, Expect, Extend, and Enrich.
This article summarizes how a group of undergraduate regional university faculty built a program for rigorous and research-based science teacher preparation at the elementary level—namely, the “Model of Research-Based Education for Teachers” (MORE for Teachers). First, we discuss the research upon which the program is built: (1) a preparation infrastructure that includes rigorous content, focused teaching methods, and integrated field experiences with an emphasis on quality mentoring from cooperating teachers and (2) a conceptual framework for how people learn science.
This article summarizes how a group of undergraduate regional university faculty built a program for rigorous and research-based science teacher preparation at the elementary level—namely, the “Model of Research-Based Education for Teachers” (MORE for Teachers).
In this study, we investigated how high school credit recovery students worked in small groups and used computer-based scaffolds to conduct scientific inquiry in a problem-based learning unit centered on water quality. We examined how students searched for and evaluated information from different sources, and used evidence to support their claims. Data sources included screen recordings, interviews, scaffold trace data, and scaffold entry quality ratings. Findings indicate that many students struggled to use the scaffolding and did not fully respond to scaffold prompts.
In this study, we investigated how high school credit recovery students worked in small groups and used computer-based scaffolds to conduct scientific inquiry in a problem-based learning unit centered on water quality.
This tool is designed to help teachers reflect on a lesson they observed and guide effective, learning-focused mentoring conversations.
Presentation on ViSTA at the 2017 NARST conference in San Antonio, Texas. The ViSTA Plus project is a multi-year preservice teacher education program for elementary teachers that spans the methods course, student teaching, and the first year of teaching.
Evaluation is an important aspect of science and is receiving increasing attention in science education. The present study investigated (1) changes to plausibility judgments and knowledge as a result of a series of instructional scaffolds, called model–evidence link activities, that facilitated evaluation of scientific and alternative models in four different Earth science topics (climate change, fracking and earthquakes, wetlands and land use, and the formation of Earth’s Moon) and (2) relations between evaluation, plausibility reappraisal, and knowledge.
Evaluation is an important aspect of science and is receiving increasing attention in science education. The present study investigated (1) changes to plausibility judgments and knowledge as a result of a series of instructional scaffolds, called model–evidence link activities, that facilitated evaluation of scientific and alternative models in four different Earth science topics (climate change, fracking and earthquakes, wetlands and land use, and the formation of Earth’s Moon) and (2) relations between evaluation, plausibility reappraisal, and knowledge.