This is a highly adaptable outline for how design thinking could be …
This is a highly adaptable outline for how design thinking could be introduced to your learners over a multi-day project. This plan works best if students are divided up into groups of 3-4 for all work except the introduction to each concept at the beginning of class. Learners should stay in the same group for the whole class.
Includes pre-work links, general instructions to guide planning for each day, design thinking student handouts, and multi-grade NGSS standards linked to design thinking.
This is a STEM activity to learn how different colors absorb light …
This is a STEM activity to learn how different colors absorb light better than others. Vocabulary and investigating questions are included to facilitate discussion, and a rubric is provided for assessment.
The purpose of Design Dilemma is to encourage students to use resourceful …
The purpose of Design Dilemma is to encourage students to use resourceful and creative behaviors to think like a scientist. Students will demonstrate these behaviors to design and build a suitable structure for a fourth little pig. Although the use of the book The Fourth Little Pig is helpful, the module may be taught without it. This module is meant for all students. The classroom teacher should work with a specialist or special educator to find or develop alternate activities or resources for visually impaired students, where appropriate.
Being able to recognize a problem and design a potential solution is …
Being able to recognize a problem and design a potential solution is the first step in the development of new and useful products. In this activity, students create devices to get "that pesky itch in the center of your back." Once the idea is thought through, students produce design schematics (sketches). They are given a variety of everyday materials and recyclables, from which they prototype their back-scratching devices.
The original Native American story component lesson was developed as part of an …
The original Native American story component lesson was developed as part of an Office of Superintendent of Public Instruction (OSPI) and Washington State Leadership and Assistance for Science Education Reform (LASER) project funded through an EPA Region 10 grant. The stories were told by Roger Fernandes of the Lower Elwha Klallam tribe. Mr. Fernandes has been given permission by the tribes to tell these stories.As these lessons and stories were shared prior to the adoption of the Washington State Science Learning Standards in 2013, there was a need to align these stories with the current science standards. This resource provides a current alignment and possible lesson suggestions on how these stories can be incorporated into the classroom. This alignment work has been funded by the NGSS & Climate Science Proviso of the Washington State Legislature as a part of North Central Educational Service District's award.
The lessons in this curriculum unit will help students learn the foundations …
The lessons in this curriculum unit will help students learn the foundations of coding using the free PBS KIDS ScratchJr app. With PBS KIDS Scratch Jr, students can create their own interactive stories and games featuring their favorite characters from Wild Kratts, Nature Cat, WordGirl and Peg + Cat!. By snapping together colorful programming blocks, students make characters move, jump, dance, and sing. In the process, kids learn to solve problems, design projects, and express themselves creatively. These lessons help students explore coding/programming vocabulary and offer non-device activities around coding/programming concepts.
PhD Science Grade Levels K–2 is available as downloadable PDFs. The OER …
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.
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
In this hands-on inquiry-based activity, students face an engineering challenge based on …
In this hands-on inquiry-based activity, students face an engineering challenge based on real-world applications. They are tasked with developing a tool they can use to measure the amount of rain that falls each day. This is more of a mini unit than a stand alone activity.
Warming oceans and melting landlocked ice caused by global climate change may …
Warming oceans and melting landlocked ice caused by global climate change may result in rising sea levels. This rise in sea level combined with increased intensity and frequency of storms will produce storm surges that flood subways, highways, homes, and more. In this activity, visitors design and test adaptations to prepare for flooding caused by sea level rise.
This unit consists of five lessons covering architecture and structural engineering. Each …
This unit consists of five lessons covering architecture and structural engineering. Each lesson includes goals, anticipatory set, learner objectives, guided practice, procedure instructions, closing activities, and extensions. Student handouts and worksheets are also included.
Lesson 1: Animal Structures Lesson 2: Homes Lesson 3: Stability Lesson 4: Local Towers & Bridges Lesson 5: Schools
Materials: blocks or other building toys, ruler, book or ball (for weight), graph paper, pencils, and floor plan of school or hand-drawn approximation featuring highlights.
This unit consists of five lessons encouraging younger learners to engineer increasingly …
This unit consists of five lessons encouraging younger learners to engineer increasingly better towers using blocks and recycled materials. Each 30 minute lesson ("phase") includes goals, discussion, activity instructions, extensions, and student worksheets.
Phase 1: Paper Cut-Outs Activity Phase 2: Building Blocks Activity Phase 3: Number of Blocks Activity Phase 4: Building within a Space Activity Phase 5: Recycled Tower Activity
In this activity, students discuss the notion of time and how time …
In this activity, students discuss the notion of time and how time can be measured. They build an hourglass to measure time and test it. This activity will allow students to have a better understanding of time and the instruments that can be used to measure it.
When you walk or drive around your neighborhood, what do the roofs …
When you walk or drive around your neighborhood, what do the roofs look like? What if you lived in an area with a different climate, how might that affect the style of roofs that you see? Through this introductory engineering activity, students explore the advantages of different roof shapes for different climates or situations. They observe and discuss what happens in a teacher demo when a "snow load" (sifted cups of flour) is placed on three model roof shapes.
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