Watershed Awareness using Technology and Environmental Research for Sustainability (WATERS) The WATERS …
Watershed Awareness using Technology and Environmental Research for Sustainability (WATERS)
The WATERS project is developing and researching a student-centered, place-based, and accessible curriculum for teaching watershed concepts and water career awareness for students in the middle grades. This 10-lesson unit includes online, classroom, and field activities. Students use a professional-grade online GIS modeling resource, simulations, sensors, and other interactive resources to collect environmental data and analyze their local watershed issues. The WATERS project is paving a path to increased access to research-based, open access curricula that hold the potential to significantly increase awareness of and engagement with watershed concepts and career pathways in learners nationwide.
This material is licensed under a Creative Commons Attribution 4.0 License. The software is licensed under Simplified BSD, MIT or Apache 2.0 licenses. Please provide attribution to the Concord Consortium and the URL https://concord.org.
Elementary school lessons utilize local phenomenon and are organized by grade level. …
Elementary school lessons utilize local phenomenon and are organized by grade level. By organizing instruction around local phenomenon, students are provided with a reason to learn shifting the focus from learning about a disconnected topic to figuring out why or how something happens. #Going 3D with GRC
High school lessons utilize local phenomenon and are organized by grade level. By …
High school lessons utilize local phenomenon and are organized by grade level. By organizing instruction around local phenomenon, students are provided with a reason to learn shifting the focus from learning about a disconnected topic to figuring out why or how something happens. #Going 3D with GRC
Middle school lessons utilize local phenomenon and are organized by grade bands. …
Middle school lessons utilize local phenomenon and are organized by grade bands. By designing instruction around local phenomenon, students are provided with a reason to learn shifting the focus from learning about a disconnected topic to figuring out why or how something happens. #Going 3D with GRC
This resource is designed to promote global well-being and to prepare students …
This resource is designed to promote global well-being and to prepare students and communities for future success in a global economy, we should provide them with opportunities to study local issues and understand how these issues fit into the fabric of global sustainability—practices that support ecological, human, and economic health.
Middle school lessons utilize local phenomenon and are organized by grade bands. …
Middle school lessons utilize local phenomenon and are organized by grade bands. By designing instruction around local phenomenon, students are provided with a reason to learn shifting the focus from learning about a disconnected topic to figuring out why or how something happens. #Going 3D with GRC
Have you ever wanted to read, but it was too dark? Have …
Have you ever wanted to read, but it was too dark? Have you ever been reading under covers and been told to turn off the lights? This unit begins with a shared experience of trying to read in the dark under covers made of different materials. Students plan and carry out investigations together to produce evidence that can answer their questions about the phenomenon. Through these investigations, students gather data about how transparent, translucent, opaque, and reflective materials cause light to pass through, be blocked, or change direction. As the unit progresses, students use a new model to explain how they can successfully read under covers that block light. At the end of the unit, students apply these ideas to write an informational text to communicate information about reading under covers to members of their community.
OpenSciEd curriculum promotes deep and engaging science learning, and it is freely accessible to all. As an Open Educational Resource (OER), we encourage teachers to adapt, transform, and build upon OpenSciEd materials, allowing them to cater to the specific requirements of their classrooms.
To view other elementary units, please visit: https://www.openscied.org/curriculum/elementary-school/explore-the-curriculum/
Land is on the move and people and animals aren’t moving it! …
Land is on the move and people and animals aren’t moving it! At the beginning of this unit, students engage with a puzzling news story about land changing shape, and people and animals don’t seem to be causing these changes. Students try to figure out how this land could be changing shape, and inquire with their communities and families to find examples of this happening around them. Through a series of investigations and community examples, students learn about how wind and water can change the shape of the land over various timescales. Once students have figured out how the land is changing shape, they work to solve a land change problem in their communities. Students act as engineers to design and test a solution. They compare designs and determine what solution would be most effective.
OpenSciEd curriculum promotes deep and engaging science learning, and it is freely accessible to all. As an Open Educational Resource (OER), we encourage teachers to adapt, transform, and build upon OpenSciEd materials, allowing them to cater to the specific requirements of their classrooms.
To view other elementary units, please visit: https://www.openscied.org/curriculum/elementary-school/explore-the-curriculum/
Have you ever seen something in the world that is balanced in …
Have you ever seen something in the world that is balanced in an interesting or puzzling way? Have you wondered how it stays balanced without falling over? This unit launches with art sculptures that do just this – the sculptures balance and move in ways that make students wonder how they work. Through a series of investigations, students develop ideas about the multiple forces acting on a sculpture to keep it upright and not fall over, or to create predictable motion. Students plan and carry out investigations to test what works and does not work to design sculptures. The unit re-anchors with a new type of sculpture – one that moves in interesting ways using magnets with nothing making contact. Students learn about the size and direction of forces between magnets and between magnets and some metal objects. Students then apply these ideas about magnets to design an object and device that solves a problem.
OpenSciEd curriculum promotes deep and engaging science learning, and it is freely accessible to all. As an Open Educational Resource (OER), we encourage teachers to adapt, transform, and build upon OpenSciEd materials, allowing them to cater to the specific requirements of their classrooms.
To view other elementary units, please visit: https://www.openscied.org/curriculum/elementary-school/explore-the-curriculum/
What sports and games do you like to play? What objects move …
What sports and games do you like to play? What objects move in those games? How do they change motion? In this unit, students experience and observe what happens to a soccer ball as they pass it back and forth to a partner at different distances and then explore other games. The unit supports students in developing foundational ideas about energy, its relationship to changes in motion and shape, and to find evidence that energy has been transferred between two objects when they collide. Through a series of investigations, students understand that contact forces between two colliding objects (e.g., a foot and a soccer ball or a ball and a surface) transfer energy from one object to the other, and that increasingly bigger kicks (stronger forces) cause the ball to travel farther and with more speed. Students also investigate how energy transfer occurs when a ball or other moving object slows down as it transfers energy to the surface it is moving on, how energy transfers as sound and/or heat to the surroundings in addition to changing motion and shape.
OpenSciEd curriculum promotes deep and engaging science learning, and it is freely accessible to all. As an Open Educational Resource (OER), we encourage teachers to adapt, transform, and build upon OpenSciEd materials, allowing them to cater to the specific requirements of their classrooms.
To view other elementary units, please visit: https://www.openscied.org/curriculum/elementary-school/explore-the-curriculum/
Have you ever seen a fallen log in a forest? Have you …
Have you ever seen a fallen log in a forest? Have you wondered how plants could be growing on it or why animals might be visiting it? In this unit, students explore nurse logs to figure out just that. Students begin their exploration of nurse logs by considering how the plant life that grows on them gets the matter needed to grow. They plan, carry out, and evaluate investigations that provide them with evidence that plants get the matter they need to grow primarily from air and water and the energy they need to grow from the Sun. As students build their understanding of matter and energy transfer, they investigate how there are also many animals that live in, on, and around nurse logs. They model to explain the transfer of energy and matter between plants, animals, the nurse log, and the sun. Students figure out that decomposers are a vital component of the nurse log system. Finally, students consider how new species can disrupt that balance and flow of matter and energy, using the example of American bullfrogs that have been recently introduced to nurse log ecosystems.
OpenSciEd curriculum promotes deep and engaging science learning, and it is freely accessible to all. As an Open Educational Resource (OER), we encourage teachers to adapt, transform, and build upon OpenSciEd materials, allowing them to cater to the specific requirements of their classrooms.
To view other elementary units, please visit: https://www.openscied.org/curriculum/elementary-school/explore-the-curriculum/
Have you ever wondered why some surfaces outside are hot and others …
Have you ever wondered why some surfaces outside are hot and others are less hot? This unit begins with a shared experience of observing how surfaces feel hot and less hot outside around the schoolyard. Then students make and record observations of different surfaces in different places in their schoolyard. Students identify the problem that blacktop can get too hot and be uncomfortable to play on. They brainstorm solutions to this problem, draw design solutions, and collaboratively build and test their designs. Students end the unit by creating a class consensus design based on their comparisons of the design features and materials that worked best to prevent the blacktop from getting too hot.
OpenSciEd curriculum promotes deep and engaging science learning, and it is freely accessible to all. As an Open Educational Resource (OER), we encourage teachers to adapt, transform, and build upon OpenSciEd materials, allowing them to cater to the specific requirements of their classrooms.
To view other elementary units, please visit: https://www.openscied.org/curriculum/elementary-school/explore-the-curriculum/
WHAT ARE PHENOMENA IN SCIENCE AND ENGINEERING? Natural phenomena are observable events …
WHAT ARE PHENOMENA IN SCIENCE AND ENGINEERING?
Natural phenomena are observable events that occur in the universe and that we can use our science knowledge to explain or predict. The goal of building knowledge in science is to develop general ideas, based on evidence, that can explain and predict phenomena. Engineering involves designing solutions to problems that arise from phenomena, and using explanations of phenomena to design solutions. In this way, phenomena are the context for the work of both the scientist and the engineer.
Middle school lessons utilize local phenomenon and are organized by grade bands. …
Middle school lessons utilize local phenomenon and are organized by grade bands. By designing instruction around local phenomenon, students are provided with a reason to learn shifting the focus from learning about a disconnected topic to figuring out why or how something happens. #Going 3D with GRC
Watershed Awareness using Technology and Environmental Research for Sustainability (WATERS) The WATERS …
Watershed Awareness using Technology and Environmental Research for Sustainability (WATERS)
The WATERS project is developing and researching a student-centered, place-based, and accessible curriculum for teaching watershed concepts and water career awareness for students in the middle grades. This 10-lesson unit includes online, classroom, and field activities. Students use a professional-grade online GIS modeling resource, simulations, sensors, and other interactive resources to collect environmental data and analyze their local watershed issues. The WATERS project is paving a path to increased access to research-based, open access curricula that hold the potential to significantly increase awareness of and engagement with watershed concepts and career pathways in learners nationwide.
This material is licensed under a Creative Commons Attribution 4.0 License. The software is licensed under Simplified BSD, MIT or Apache 2.0 licenses. Please provide attribution to the Concord Consortium and the URL https://concord.org.
In this fifth-grade science and engineering unit on earth systems and on …
In this fifth-grade science and engineering unit on earth systems and on the structure and properties of matter, students investigate where the dirty water that drains out of their homes and schools goes and where the clean water they use comes from. Their investigations lead them to discover connections between the hydrosphere, geosphere, biosphere, and atmosphere. Their discoveries spark a series of design problems to solve in order to protect freshwater reservoirs and minimize human impacts on the environment, including ways to mitigate flooding and erosion, naturally filter water and prevent contamination of water reservoirs, and conserve water usage in drought-prone areas of the world.
In this fifth-grade unit on interrelationships in ecosystems, students investigate the apparent …
In this fifth-grade unit on interrelationships in ecosystems, students investigate the apparent disappearance of the body of a dead raccoon over time. Their findings lead them to uncover the role of decomposers in this process, as well as the role of decomposers in the disappearance of plant debris over time. Students ultimately track down where the materials come from that all living things need for repair and growth and where the energy comes from that they use to move and stay warm. Resource from: NextGenStoryline.org
The inquiryHub (iHub) biology curriculum is a full-year high school biology course …
The inquiryHub (iHub) biology curriculum is a full-year high school biology course anchored in phenomena and aligned to the Next Generation Science Standards.
Denver Public Schools teachers, working with a team of researchers from the University of Colorado Boulder and Northwestern University, designed three units, which address all of the performance expectations in the NGSS for high school biology. Scientists are part of the team and have reviewed all content for accuracy. Achieve, Inc., which reviews science units, has reviewed the first unit in the curriculum and rated it as High Quality NGSS Design if Improved.
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