Science

Longitudinal Investigation of Primary Inservice Teachers’ Modelling the Hydrological Phenomena

Earth Science
Environmental Science
Science
Standards

To develop students’ capacity for science and to engage them productively in science and engineering practices, science education reform efforts have focused on supporting teachers’ development of conceptual understandings through engagement with both disciplinary content and practices, including science teaching at the primary level. One topic of importance for primary science instruction focuses on Earth systems and, in particular, hydrological phenomena. Scientific modelling provides an effective, practice-based strategy for students’ conceptual development of water.

Access Link: 
https://www.tandfonline.com/doi/full/10.1080/09500693.2019.1698786
Author/Presenter: 
Tina Vo
Cory Forbes
Laura Zangori
Christina Schwarz
Lead Organization(s): 
University of Nevada, Las Vegas (UNLV)
Year: 
2019
Short Description: 
This manuscript focuses on longitudinal research with four primary inservice teachers’ learning and engagement in model-based teaching about water over three years, investigating teachers conceptualizations and practice modelling water related phenomena over time. Findings from the study indicate while each teacher had individual trajectories in conceptualising and enacting scientific modelling in the classroom, we observed unique approaches within teachers.

Developing Student 21st Century Skills in Selected Exemplary Inclusive STEM High Schools

21st Century Skills
Engineering
Mathematics
Science
Technology
Broadening Participation

There is a need to arm students with noncognitive, or 21st Century, skills to prepare them for a more STEM-based job market. As STEM schools are created in a response to this call to action, research is needed to better understand how exemplary STEM schools successfully accomplish this goal. This conversion mixed method study analyzed student work samples and teacher lesson plans from seven exemplary inclusive STEM high schools to better understand at what level teachers at these schools are engaging and developing student 21st Century skills.

Access Link: 
https://stemeducationjournal.springeropen.com/articles/10.1186/s40594-019-0192-1...
Author/Presenter: 
Stephanie M. Stehle
Erin E. Peters-Burton
Lead Organization(s): 
George Mason University (GMU)
Year: 
2019
Short Description: 
This conversion mixed method study analyzed student work samples and teacher lesson plans from seven exemplary inclusive STEM high schools to better understand at what level teachers at these schools are engaging and developing student 21st Century skills.

Supporting the Scientific Practices through Epistemologically Responsive Science Teaching

Science
Teacher Practice

Meaningfully engaging students in the NGSS scientific practices requires that student ideas become the driving force of classroom activity. However, in order for student ideas to take on this new role, teachers must engage in responsive teaching in which they elicit, notice, and respond to the substance of student thinking. In this work, we explore a variety of types of responsive teaching and elaborate a specific type of responsive teaching—what we call epistemologically responsive science teaching.

Access Link: 
https://www.tandfonline.com/doi/full/10.1080/1046560X.2019.1692507
Author/Presenter: 
Leema K. Berland
Rosemary S. Russ
Cori P. West
Lead Organization(s): 
University of Wisconsin-Madison (UW-Madison)
Year: 
2019
Short Description: 
In this article, authors explore a variety of types of responsive teaching and elaborate a specific type of responsive teaching—epistemologically responsive science teaching.

EHR Core Research (ECR): Building Capacity in STEM Education Research (ECR: BCSER) Full Proposal Deadline

Submitted by cadre-admin on

Event Date: 
Fri, 02/28/2020 - 5:00pm
Sponsoring Organization: 
National Science Foundation (NSF)
Associated Dates and Deadlines: 

Learn more at https://www.nsf.gov/funding/pgm_summ.jsp?pims_id=505645&org=EHR&sel_org=EHR&from=fund

Event Type: 
Funding Opportunity
Discipline / Topic: 
Engineering
Mathematics
Science
Technology

The Effect of Automated Feedback on Revision Behavior and Learning Gains in Formative Assessment of Scientific Argument Writing

Climate Change
Science
Assessment
Educational Technology

Application of new automated scoring technologies, such as natural language processing and machine learning, makes it possible to provide automated feedback on students' short written responses. Even though many studies investigated the automated feedback in the computer-mediated learning environments, most of them focused on the multiple-choice items instead of the constructed response items. This study focuses on the latter and investigates a formative feedback system integrated into an online science curriculum module teaching climate change.

Access Link: 
https://www.sciencedirect.com/science/article/pii/S0360131519302210#ack0010
Author/Presenter: 
Mengxiao Zhu
Ou Lydia Liu
Hee-Sun Lee
Lead Organization(s): 
Educational Testing Service (ETS)
Year: 
2019
Short Description: 
This study investigates a formative feedback system integrated into an online science curriculum module teaching climate change.

The Impact of Engineering Curriculum Design Principles on Elementary Students’ Engineering and Science Learning

Engineering
Science
Curriculum

The Framework for K‐12 Science Education and the Next Generation Science Standards propose that students learn core ideas and practices related to engineering as well as science. To do so, students will need high‐quality curricular materials designed to meet these goals. We report an efficacy study of an elementary engineering curriculum, Engineering is Elementary (EiE) that includes a set of hypothesized critical components designed to encourage student engagement in practices, connect engineering and science learning, and reach diverse students.

Access Link: 
https://onlinelibrary.wiley.com/doi/abs/10.1002/tea.21601
Author/Presenter: 
Christine M. Cunningham
Cathy P. Lachapelle
Robert T. Brennan
Gregory J. Kelly
Chris San Antonio Tunis
Christine A. Gentry
Lead Organization(s): 
Pennsylvania State University (Penn State)
Year: 
2019
Short Description: 
This article reports an efficacy study of an elementary engineering curriculum, Engineering is Elementary, that includes a set of hypothesized critical components designed to encourage student engagement in practices, connect engineering and science learning, and reach diverse students.

Socio-Ecological Scales of Time

Biology
Earth Science
Science

This graphic is designed to support students, teachers, and families in thinking across timescales to understand socio-ecological relationships to place across time.

Author/Presenter: 
Learning in Places
Lead Organization(s): 
University of Washington (UW)
Year: 
2019
Short Description: 
This graphic is designed to support students, teachers, and families in thinking across timescales to understand socio-ecological relationships to place across time.
Resource(s): 
PDF icon Socio-ecological Scales of Time.pdf

Rhizome and Seasonal Storyline for Field-based Science

Biology
Earth Science
Science
Broadening Participation

This tool, Rhizome, contains three foundational pillars: complex socio-ecological systems, nature-culture relations, and field-based science learning, with student learning and sense making made central. The Seasonal Storyline engages learners and their families in field-based science that connects family knowledge and place-based, student-led investigations.

Author/Presenter: 
Learning in Places
Lead Organization(s): 
University of Washington (UW)
Year: 
2019
Short Description: 
This resource focuses on engaging learners and their families in field-based science that connects family knowledge and place-based, student-led investigations.
Resource(s): 
PDF icon Rhizome and Seasonal Storyline for Field-based Science.pdf

CRIS 7e Lesson Plan Template

Earth Science
Environmental Science
Science
Technology
Broadening Participation
Curriculum
Equity

The CRIS “7e” lesson plan template, adapted from the Next Generation Science “5e”, centers the importance of including Elders and Environment in Indigenous STEM teaching and learning. The template is a way for teachers to weave Traditional Ecological Knowledge (TEK) and Western Science into lessons, and has been formative in helping team members integrate community knowledge and land-based education into science learning experiences. 

Access Link: 
Author/Presenter: 
CRIS Project Team
Lead Organization(s): 
Washington State University
Year: 
2019
Short Description: 
This lesson plan template centers the importance of including Elders and Environment in Indigenous STEM teaching and learning, and is a way for teachers to weave Traditional Ecological Knowledge (TEK) and Western Science into lessons.
Resource(s): 
PDF icon CADRE_NSF CRIS 7E Model Unit Planning Template.pdf

Pages

Subscribe to Science