Through eight lessons, students are introduced to many facets of dams, including …
Through eight lessons, students are introduced to many facets of dams, including their basic components, the common types (all designed to resist strong forces), their primary benefits (electricity generation, water supply, flood control, irrigation, recreation), and their importance (historically, currently and globally). Through an introduction to kinetic and potential energy, students come to understand how dams generate electricity. They learn about the structure, function and purpose of locks, which involves an introduction to Pascal's law, water pressure and gravity. Other lessons introduce students to common environmental impacts of dams and the engineering approaches to address them. They learn about the life cycle of salmon and the many engineered dam structures that aid in their river passage, as they think of their own methods and devices that could help fish migrate past dams. Students learn how dams and reservoirs become part of the Earth's hydrologic cycle, focusing on the role of evaporation. To conclude, students learn that dams do not last forever; they require ongoing maintenance, occasionally fail or succumb to "old age," or are no longer needed, and are sometimes removed. Through associated hands-on activities, students track their personal water usage; use clay and plastic containers to model and test four types of dam structures; use paper cups and water to learn about water pressure and Pascal's Law; explore kinetic energy by creating their own experimental waterwheel from two-liter plastic bottles; collect and count a stream's insects to gauge its health; play an animated PowerPoint game to quiz their understanding of the salmon life cycle and fish ladders; run a weeklong experiment to measure water evaporation and graph their data; and research eight dams to find out and compare their original purposes, current status, reservoir capacity and lifespan. Woven throughout the unit is a continuing hypothetical scenario in which students act as consulting engineers with a Splash Engineering firm, assisting Thirsty County in designing a dam for Birdseye River.
Students create a concept design of their very own net-zero energy classroom …
Students create a concept design of their very own net-zero energy classroom by pasting renewable energy and energy-efficiency items into and around a pretend classroom on a sheet of paper. They learn how these items (such as solar panels, efficient lights, computers, energy meters, etc.) interact to create a learning environment that produces as much energy as it uses.
This task, by ClimeTime educators, is for 5th grade students. After class …
This task, by ClimeTime educators, is for 5th grade students. After class discussions about trash, litter, and available programs for recycling and composting, students collect trash and sort it into “recycling,” “food waste/compostable,” and “landfill.” Students learn about littering behaviors. Students incorporate what they have learned to develop an argument using claim, evidence, reasoning. Resource includes a student task document, teacher guide, and task facilitation slides.
This resource is designed as a module with a storybook or web …
This resource is designed as a module with a storybook or web story, and four activities. In the storybook, the GLOBE Kids investigate colors in the sky and learn how air pollution affects sky color and our health. Learning activities engage students in describing sky color and conditions in the atmosphere, creating a model to learn how sky color and visibility are affected by aerosols, using prisms to explore properties of light and colors, and collecting aerosol samples.
Students are introduced to the idea that energy use impacts the environment …
Students are introduced to the idea that energy use impacts the environment and our wallets. They discuss different types of renewable and nonrenewable energy sources, as well as the impacts of energy consumption. Through a series of activities, students understand how they use energy and how it is transformed from one type to another. They learn innovative ways engineers conserve energy and how energy can be conserved in their homes.
Students begin by reading Dr. Seuss' "The Lorax" as an example of …
Students begin by reading Dr. Seuss' "The Lorax" as an example of how overdevelopment can cause long-lasting environmental destruction. Students discuss how to balance the needs of the environment with the needs of human industry. Student teams are asked to serve as natural resource engineers, city planning engineers and civil engineers with the task to replant the nearly destroyed forest and develop a sustainable community design that can co-exist with the re-established natural area.
Killer Whale Task Force is the introduction to eight units in the …
Killer Whale Task Force is the introduction to eight units in the Explore the Salish Sea Curriculum. Each unit contains a detailed unit plan, a slideshow, student journal, and assessments. All elements are adaptable and can be tailored to your local community. This unit introduces the overall phenomenon for the curriculum-the endangered status of the Southern Resident Killer Whales - and puts students in the roles of working group members in the Governor-appointed taskforce to identify the biggest threats and recommend solutions to save the whales. No matter which units you choose to implement with your class, start here to set the premise.
In this unit, students wonder about the physical drivers of ocean movement, …
In this unit, students wonder about the physical drivers of ocean movement, explore density differences, and take a look at some tiny creatures who struggle to keep their place in the water column in the midst of all that ocean motion. Each unit of the Explore the Salish Sea curriculum contains a detailed unit plan, a slideshow, student journal, and assessments. All elements are adaptable and can be tailored to your local community.
In Unit 2 of the Explore the Salish Sea curriculum, students will …
In Unit 2 of the Explore the Salish Sea curriculum, students will review the water cycle, learn the parts of a watershed, and the effects of erosion and pollution, then learn ways of purifying these waters before they enter our streams and estuaries to safeguard these ecosystems for marine life and us. Each unit in this series contains a detailed unit plan, a slideshow, student journal, and assessments. All elements are adaptable and can be tailored to your local community.
Salish Sea Rocks is Unit 3 of the Explore the Salish Sea …
Salish Sea Rocks is Unit 3 of the Explore the Salish Sea Curriculum. Each unit contains a detailed unit plan, a slideshow, student journal, and assessments. All elements are adaptable and can be tailored to your local community. In the unit, students will explore Earth’s processes that create the perfect spawning habitat for a few species of small but mighty fish.
In this unit, students will solve a mystery about changes in oyster …
In this unit, students will solve a mystery about changes in oyster larvae in the Salish Sea, causing oyster farmers to send their larvae to Hawaii until they grow stronger. They will look for clues in: • activities and games, articles, and films that introduce the concepts of habitat and ecosystem • structures and behaviors for survival in intertidal zone habitats • the Earth-moon-sun interactions that drive the tides • the importance of First Foods of the intertidal to first nations communities; • how intertidal organisms interact across the Salish Sea food web Afterward, they will arrive at the importance of a balanced carbon cycle in the health of the ocean and use a full scientific investigation to test if their local waters have a healthy pH for oyster larvae and other shelled creatures. Clear pathways of hope are woven into this complex issue, so students know that scientists and leaders are working to solve this problem - and kids can help!
Did you know that a elephant seal can hold its breath for …
Did you know that a elephant seal can hold its breath for 77 minutes and dive 5,000 feet (1524 meters) into the sea? We are still working on the science to discover just what enables these remarkable feats under intense pressure, cold, and dark. Diving birds and mammals utilize physical, behavioral, and physiological adaptations to withstand the extreme conditions of diving and still return to the surface with oxygen reserves (and a meal!). Your students can join us in investigating just how they do this.
This unit will review the concepts of pressure-changing with depth, marine food webs, structure and function, photosynthesis and respiration, and of course, the process of science. It will introduce metabolism, the diving reflex, sensory structures for detecting prey, wave properties of acoustics, trophic pyramids, and bioaccumulation of toxins in long-lived predators. Oh yeah, and there will be orca forensics!
Migration explores the routes, distances, and purposes for wildlife migration with a …
Migration explores the routes, distances, and purposes for wildlife migration with a special focus on Pacific salmon. This iconic species of the Pacific Northwest has shaped life in Salish Sea watersheds since they first entered rivers and creeks to spawn, bringing their ocean-derived nutrients in reach of land animals, plants, and people. Nearly 1/4 of the nitrogen in the leaves of our giant temperate rainforest trees once swam in the sea as salmon. They are the reason for the great natural wealth of the Salish Sea and beyond.
Learning to identify habitat needs based on their specific migrations will empower students to identify ways they can improve salmon habitat near their own schools and possibly design and carry out a salmon habitat improvement project. Reach out to salmon experts in your community for support with this unit and project, from protecting storm drains to raising salmon in the classroom. Share your salmon project story along the way. Your school may just be featured as our next Salish Sea Heroes!
The culmination of the Explore the Salish Sea Curriculum is improving the …
The culmination of the Explore the Salish Sea Curriculum is improving the environment for wildlife and people in your own community. Students will review the science and traditional ecological knowledge-based recommendations they have made after each scientific investigation throughout the previous units, then choose one to put into action. Their choices will depend on available resources, time, and expertise available.
This Fifth Grade Elementary Framework for Science and Integrated Subjects - Local …
This Fifth Grade Elementary Framework for Science and Integrated Subjects - Local Ecosystem Restoration, includes detailed lesson plans, materials, and activities for students to understand the big ideas of:What impact do invasive species have on an ecosystem?How can humans create riparian areas within an ecosystem in order to return the ecosystem to healthier state?It is part of Elementary Framework for Science and Integrated Subjects project, a statewide Clime Time collaboration among Washington Educational Service Districts ESD 123, ESD 105, North Central ESD, and the Office of Superintendent of Public Instruction. Development of the resources is in response to a need for research- based science lessons for elementary teachers that are integrated with English language arts, mathematics and other subjects such as social studies.
Students further their understanding of the salmon life cycle and the human …
Students further their understanding of the salmon life cycle and the human structures and actions that aid in the migration of fish around hydroelectric dams by playing an animated PowerPoint game involving a fish that must climb a fish ladder to get over a dam. They first brainstorm their own ideas, and then learn about existing ways engineers have made dams "friendlier" to migrating fish, before being quizzed as part of the game.
Students learn that when one part of a food web changes, it …
Students learn that when one part of a food web changes, it impacts other parts of the web. Students learn that stewardship decisions impact the different components of food webs in different ways.
Air is one of Earth's most precious resources, and we need to …
Air is one of Earth's most precious resources, and we need to take care of it in order to preserve the environment and protect human health. To this end, students develop their understanding of visible air pollutants with an incomplete combustion demonstration, a "smog in a jar" demonstration, and by building simple particulate matter collectors.
This lesson was developed by Wild Whatcom (www.wildwhatcom.org) for the Clime Time …
This lesson was developed by Wild Whatcom (www.wildwhatcom.org) for the Clime Time initiative. The lesson included expands on knowledge of Forest Succession. This outdoor lesson can happen in any natural setting whether it be on a school play field, in a garden, or in a forest. The lesson allows students to role play what it would be like to live in a forest undergoing natural occurances with varying effects due to different management styles. This lesson is best conducted after the concepts of forest succession or natural extreme weather patterns have been discussed.
This lesson introduces students to the concepts of air pollution and technologies …
This lesson introduces students to the concepts of air pollution and technologies that have been developed by engineers to reduce air pollution. Students develop an understanding of visible air pollutants with an incomplete combustion demonstration, a "smog in a jar" demonstration, construction of simple particulate matter collectors and by exploring engineering roles related to air pollution. Next, students develop awareness and understanding of the daily air quality and trends in air quality using the Air Quality Index (AQI) listed in the newspaper. Finally, students build and observe a variety of simple models in order to develop an understanding of how engineers use these technologies to clean up and prevent air pollution.
No restrictions on your remixing, redistributing, or making derivative works. Give credit to the author, as required.
Your remixing, redistributing, or making derivatives works comes with some restrictions, including how it is shared.
Your redistributing comes with some restrictions. Do not remix or make derivative works.
Most restrictive license type. Prohibits most uses, sharing, and any changes.
Copyrighted materials, available under Fair Use and the TEACH Act for US-based educators, or other custom arrangements. Go to the resource provider to see their individual restrictions.