The Oregon Science Project Module #1 is designed for K-12 and nonformal educators who want to learn more about NGSS, with an emphasis on how the shift to sense-making around phenomena is at the heart of the NGSS. It is designed to provide 3-4 hours of work and asks learners to create something new to contribute to the work.

How can we design more reliable systems to meet our communities’ energy needs? This unit is designed to introduce students to the concept of energy transfer in a relevant and grounded context: the Texas power crisis of February 2021. Students read articles and wonder about the complex social, environmental, and physical realities that led to such a crisis. They figure out how energy transfers between systems from a generator to our communities, and what makes an energy source reliable. This allows the class to model and explain what happened in Texas at multiple scales, from the electrons in the wires to the power companies making difficult decisions to maintain stability. Students consider engineering tradeoffs, criteria, and constraints inherent in making decisions about our energy systems, and apply them in a culminating task: design a reliable energy solution that meets our communities' needs, as articulated by interviews with friends and family members. The task is designed to give students the tools to speak up in their local and global community for a better energy future, one that aligns with their own values, and those of their families.

Second part to the C2 Superlesson for ROV's from Kim Stokes and Ben Wells, Siuslaw Elementary School.

In this lesson, students will compare weather and climate, explain patterns over time and make observations by creating a rain gauge.

NGSS: 3-ESS2-1

Time: 55 minutes

Materials: laminated patterns in nature photos (photos included), thermometer for the class, duct tape, data sheet, rulers, sharpies, scissors, empty soda bottles for rain gauages, pebbles

This personalized playlist lets students have voice and choice and move at their own pace as they learn about energy types and sustainable energy. The playlist is aligned to the NGSS Science and Engineering Practice Developing and Using Models. The final project is to develop and use a model of their choice to show and explain their learning.

PhD Science Grade Levels K–2 is available as downloadable PDFs. The OER consists of Teacher Editions and student Science Logbooks for every module.

With PhD Science®, students explore science concepts through authentic phenomena and events—not fabricated versions—so students build concrete knowledge and solve real-world problems. Students drive the learning by asking questions, gathering evidence, developing models, and constructing explanations to demonstrate the new knowledge they’ve acquired. The coherent design of the curriculum across lessons, modules, and grade levels helps students use the concepts they’ve learned to build a deep understanding of science and set a firm foundation they’ll build on for years to come.

Cross-curricular connections are a core component within PhD Science. As an example, every module incorporates authentic texts and fine art to build knowledge and create additional accessible entry points to the topic of study.

Three-dimensional teaching and learning are at the heart of the curriculum. As students uncover Disciplinary Core Ideas by engaging in Science and Engineering Practices and applying the lens of Cross-Cutting Concepts, they move from reading about science to doing science.

Great Minds® is the creator of Eureka Math®, Wit & Wisdom®, Alexandria Plan™, and PhD Science®.
Published by Great Minds PBC. greatminds.org
Copyright © 2021 Great Minds PBC. Except where otherwise noted, this PK-2 PhD Science® content is published under Great Minds OER License #1. Use limited to Non-Commercial educational purposes.
COMMERCIAL REPRODUCTION PROHIBITED.

See OER license details here:
https://s3.greatminds.org/link_files/files/000/003/991/original/Final_Form_OER_PhD_Science_K-2_limited_public_license_%282.10.21%29.pdf

Throughout the module, students study the anchor phenomenon, the cliff dwellings at Mesa Verde, and build an answer to the Essential Question: How did the cliff dwellings at Mesa Verde protect people from the weather? As students learn about each new concept, they develop and refine a model that represents a cliff dwelling and use that model to explore how cliff dwellings protected people from the weather. At the end of the module, students use their knowledge of weather to explain the anchor phenomenon, and they apply their learning to a new context in an End-of-Module Assessment. Through these experiences, students begin to establish an enduring understanding of weather and its effects. Specifically, students develop an understanding of the parts of weather, the effects weather has on people and their surroundings, and the ways people prepare for severe weather.

With PhD Science®, students explore science concepts through authentic phenomena and events—not fabricated versions—so students build concrete knowledge and solve real-world problems. Students drive the learning by asking questions, gathering evidence, developing models, and constructing explanations to demonstrate the new knowledge they’ve acquired. The coherent design of the curriculum across lessons, modules, and grade levels helps students use the concepts they’ve learned to build a deep understanding of science and set a firm foundation they’ll build on for years to come.

Cross-curricular connections are a core component within PhD Science. As an example, every module incorporates authentic texts and fine art to build knowledge and create additional accessible entry points to the topic of study.

Three-dimensional teaching and learning are at the heart of the curriculum. As students uncover Disciplinary Core Ideas by engaging in Science and Engineering Practices and applying the lens of Cross-Cutting Concepts, they move from reading about science to doing science.

© 2020–2022 Great Minds PBC. Except where otherwise noted, this content is published under Great Minds OER License 1 (greatminds.org/gm_oer_1). Use limited to noncommercial educational purposes. COMMERCIAL REPRODUCTION PROHIBITED.

An adaptable exploratory and reflective activity that works with all ages and uses the Next Generation Science Standards (NGSS*), Asking Question and Defining Problems Practice and one of several possible Crosscutting Concepts to explore students’ awareness, prior knowledge and cultural experiences related to a phenomenon or Disciplinary Core Idea .

Used during the October 16th "Building Science Proficiency Scales" workshop in Chester, VT

This is the third in a series of Hybrid NGSS Modules curated by the Oregon Science Project in 2017 using already created, research-based NGSS professional development resources. This module focuses on formative assessment and how it can help educators to make student thinking visible and also how to use student ideas and models for teaching in the NGSS classroom.  It builds on the work of the first two: Module #1 Phenomena & Equity, Module #2 Talk & Equity.All Oregon Science Project Hybrid NGSS PD Modules are designed to be done together with other educators in real time either online or face-to-face. The Oregon Science Project utilizes the videoconferencing tools of Zoom to run small teams of K-12 educators through these modules online in real time. Some Oregon Science Project Learning Facilitators are able to meet with their teams in person and still use these modules on computers during face-to-face work.It was built using the OER Commons Module builder so it is broken into units as Tasks. Some are meant to be done individually, while others are designed for group dialogue and interaction. Dialogue in this case is used as way to build shared understanding. This is compared to discussion where a group is working on making a decision or choice. This difference is based upon the Adaptive School Work of Garmston and Wellman. You can read more about this in Chapter 4 of the Adaptive School: A Sourcebook for Developing Collaborative Groups. The design of the modules and overall framework is also informed by the research about professional development from A Facilitator's Guide to Online Professional Development: Establishing Communities of Learning and Cultures of Thinking by Carol Brooks Simoneau and Gerald Bailey.Module #3 Components:Task #1 - Module #3 OverviewTask #2 - What is formative assessment? Individual WorkTask #3 - What is formative assessment? Group Reflection and DialogueTask #4- What are some high leverage practices for formative assessment in the NGSS classroom?  Individual WorkTask #5 - What are some high leverage practices for formative assessment in the NGSS classroom?  Group Reflection and DialogueTask #6 - How can we develop and use culturally responsive formative assessments for NGSS? Individual WorkTask #7 - How can we develop and use culturally responsive formative assessments for NGSS? Group Reflection and DialogueTask #8 - How can we integrate the NGSS practices into assessment tasks? Individual WorkTask #9 - How can we integrate the NGSS practices into assessment tasks? Group Reflection and Dialogue

Oregon Science Project Module #3 Facilitator Video OverviewThis is the third in a series of Hybrid NGSS Modules curated by the Oregon Science Project in 2017 using already created, research-based NGSS professional development resources. This module focuses on formative assessment and how it can help educators to make student thinking visible and also how to use student ideas and models for teaching in the NGSS classroom.  It builds on the work of the first two: Module #1 Phenomena & Equity, Module #2 Talk & Equity.All Oregon Science Project Hybrid NGSS PD Modules are designed to be done together with other educators in real time either online or face-to-face. The Oregon Science Project utilizes the videoconferencing tools of Zoom to run small teams of K-12 educators through these modules online in real time. Some Oregon Science Project Learning Facilitators are able to meet with their teams in person and still use these modules on computers during face-to-face work.It was built using the OER Commons Module builder so it is broken into units as Tasks. Some are meant to be done individually, while others are designed for group dialogue and interaction. Dialogue in this case is used as way to build shared understanding. This is compared to discussion where a group is working on making a decision or choice. This difference is based upon the Adaptive School Work of Garmston and Wellman. You can read more about this in Chapter 4 of the Adaptive School: A Sourcebook for Developing Collaborative Groups. The design of the modules and overall framework is also informed by the research about professional development from A Facilitator's Guide to Online Professional Development: Establishing Communities of Learning and Cultures of Thinking by Carol Brooks Simoneau and Gerald Bailey.Instructor DescriptionsAccompanying each task is a backend "Instructor Description." Each Instructor Description is only intended for the instructor or facilitator of the module and not the educator participating as a learner in the module. Each Instructor Description includesbakckground informationinstructions for facilitator preparationtips/ideas for facilitators working with a group onlinetips/ideas for face-to-face facilitationlinks to other resources when appropriateRemixing and Using this Module for Professional DevelopmentIf you would like to use this module, simply select REMIX and then edit your own copy so that it represents your facilitation style, local context, and professional development needs. This module was developed based upon the assumption that all participants have completed Oregon Science Project Hybrid NGSS Modules #1 and 2 and are studying the NGSS.Module #3 Components:Task #1 - Module #3 OverviewTask #2 - What is formative assessment? Individual WorkTask #3 - What is formative assessment? Group Reflection and DialogueTask #4- What are some high leverage practices for formative assessment in the NGSS classroom?  Individual WorkTask #5 - What are some high leverage practices for formative assessment in the NGSS classroom?  Group Reflection and DialogueTask #6 - How can we develop and use culturally responsive formative assessments for NGSS? Individual WorkTask #7 - How can we develop and use culturally responsive formative assessments for NGSS? Group Reflection and DialogueTask #8 - How can we integrate the NGSS practices into assessment tasks? Individual WorkTask #9 - How can we integrate the NGSS practices into assessment tasks? Group Reflection and Dialogue

The Ashland Science Project Module #1 is designed for elementary science teachers who want to learn more about NGSS, with an emphasis on how the shift to sense-making around phenomena is at the heart of the NGSS. For our first meeting, please review task #1-#4 on your own and we will discuss then when meet as a group.

The Ashland Science Project Module #1 is designed for elementary science teachers who want to learn more about NGSS, with an emphasis on how the shift to sense-making around phenomena is at the heart of the NGSS. For our first meeting, please review task #1-#4 on your own and we will discuss then when meet as a group.

The Oregon Science Project Module #1 is designed for K-12 and nonformal educators who want to learn more about NGSS, with an emphasis on how the shift to sense-making around phenomena is at the heart of the NGSS. It is designed to provide 3-4 hours of work and asks learners to create something new to contribute to the work.

The Oregon Science Project Module #1 is designed for K-12 and nonformal educators who want to learn more about NGSS, with an emphasis on how the shift to sense-making around phenomena is at the heart of the NGSS. It is designed to provide 3-4 hours of work and asks learners to create something new to contribute to the work.

Sacred Breath is a Middle School curricular program created by EarthGen. For this unit, we offer professional development training and assistance with implementation. If you are interested in implementing this program at your school or district, please let us know! Please contact info@earthgenwa.org for more information. 

This document provides a simplified version of an investigation that uses quadrats to compare habitats in your schoolyard. Depending on your focus, the activity can be adapted to compare the diversity or amount of ground insects, invertebrates or plants in two areas. Students use the Next Generation Science Standards’ Planning and Carrying Out Investigations practice and the Cause and Effect and/or Stability and Change crosscutting concepts to build understanding of the needs of animals, differences in ecosystems and/or change in ecosystems.

This is a mapping activity that uses the student’s schoolyard to investigate how rain/stormwater interacts with different surfaces and where stormwater problems may occur. Students use Next Generation Science Standards’ Science and Engineering Practices in a near-by, relevant place.

These are full-course openly licensed resources for districts interested in exploring OER options when considering core instructional materials for district adoption. Course materials are available for online viewing or download.

In this lesson, students will investigate seeds and the process of seeds growing to become the food we eat. Includes activity instructions, extension activities, songs, and a vocabulary list.

NGSS: Partially meets 2-LS2-1, Extension activities meet 4-LS1-1, 5-LS-1

Common Core: W.2.7, W.2.8, Extension activities meet MD.K, MD.1, MD.2.1, MD.3.3, MD, 4.4, MD.5

Social Sciences: 3.12, 4.12

Time: 45 minutes

Materials: "Seed, Soil, Sun" or other book about seed germination and plant growth, clear plastic cups, paper cups, paper towels, seeds, water