In this activity, students familiarise themselves with the concept of a map …
In this activity, students familiarise themselves with the concept of a map by observing and describing maps, and drawing a map from an aerial photograph. They understand that any location on Earth is described by two numbers, latitude and longitude. The notion of scale and ratio is also explored.
This webpage contains a list of other OER repositories. Most links are …
This webpage contains a list of other OER repositories. Most links are for Higher Ed repositories but there may be some links that contain K-12 OER material as well.
Students groups act as aerospace engineering teams competing to create linear equations …
Students groups act as aerospace engineering teams competing to create linear equations to guide space shuttles safely through obstacles generated by a modeling game in level-based rounds. Each round provides a different configuration of the obstacle, which consists of two "gates." The obstacles are presented as asteroids or comets, and the linear equations as inputs into autopilot on board the shuttle. The winning group is the one that first generates the successful equations for all levels. The game is created via the programming software MATLAB, available as a free 30-day trial. The activity helps students make the connection between graphs and the real world. In this activity, they can see the path of a space shuttle modeled by a linear equation, as if they were looking from above.
The earth’s atmosphere may seem thick when compared to something like your …
The earth’s atmosphere may seem thick when compared to something like your height—but it’s surprisingly thin when compared to the earth’s radius. Here, you can find out exactly how thin, using strips of plastic to model the correctly scaled thickness of the atmosphere on a globe.
During the activity, students build a model of the Milky Way and …
During the activity, students build a model of the Milky Way and understand the objects contained in the Milky Way. They also get an idea about the distances between these objects.
Learners use two mirrors to explore how images of images of images …
Learners use two mirrors to explore how images of images of images can repeat forever. This resource includes a light-ray diagram to help learners understand what they are seeing -- images appear to be grouped in pairs with a front side always facing a front side and a back side always facing a back side. Learners can assist in assembling the Infinity Mirror or use one that has been pre-assembled.
Two children act as the Moon and the Earth. By holding hands …
Two children act as the Moon and the Earth. By holding hands and spinning around they mimic the tidal locking of the Moon. They note that the Moon always keeps the same face towards Earth.
Can you avoid the boulder field and land safely, just before your …
Can you avoid the boulder field and land safely, just before your fuel runs out, as Neil Armstrong did in 1969? Our version of this classic video game accurately simulates the real motion of the lunar lander with the correct mass, thrust, fuel consumption rate, and lunar gravity. The real lunar lander is very hard to control.
In this 30 to 45 minute activity, children (in teams of 4-5) …
In this 30 to 45 minute activity, children (in teams of 4-5) experiment to create craters and learn about the landscape of the moon. The children make observations on how the size and mass, direction, and velocity of the projectile impacts the size and shape of the crater.
Why does the Moon not always look the same to us? Sometimes …
Why does the Moon not always look the same to us? Sometimes it is a big, bright, circle, but, other times, it is only a tiny sliver, if we can see it at all. The different shapes and sizes of the slivers of the Moon are referred to as its phases, and they change periodically over the course of a lunar month, which is twenty-eight days long. The phases are caused by the relative positions of the Earth, Sun, and Moon at different times during the month.
LESSON DESCRIPTIONStudents will research potential careers of stakeholders involved in making land …
LESSON DESCRIPTIONStudents will research potential careers of stakeholders involved in making land use decisions then engage in a role-playing scenario about a proposed dam removal in their community.
In this group of activities students will investigate their schoolyard or other …
In this group of activities students will investigate their schoolyard or other nearby space in orderto identify what is around them and arrive at the definition of an ecosystem. Students will take a walk or go to a specific location to observe the types of constructed and natural features that are there. Students will record their observations and then begin to categorize their findings into living and non- living things. Once students have identified the living things, they will discuss what living things need to survive. Students will learn new terms, biotic and abiotic, and review what a habitat is as they discuss the components of an ecosystem. Students will also be introduced to the term biodiversity.
In this group of activities, students will think more deeply about the …
In this group of activities, students will think more deeply about the ways in which organismsinteract within communities in their ecosystems. Students will learn about different types of relationships including commensalism, mutualism, and parasitism and will role play predator/prey relationships through an interactive game. Students will also discover how energy movesthrough ecosystems via food chains and food webs and look at energy pyramids.
In this group of activities, students will investigate how nutrients and water …
In this group of activities, students will investigate how nutrients and water move through ecosystems in cycles. Students will begin by investigating how carbon cycles through organisms as part of photosynthesis and cellular respiration and then through food chains. Students will discuss what happens when living things do not decompose under normal conditions and become fossilfuels. Students will then review the water cycle and discover that water connects everything inecosystems. Students will explore stories of the water cycle as told by molecules of water anddiscuss water’s importance to all living things.
Students will learn about Michigan’s four ecological regions, how these unique regions …
Students will learn about Michigan’s four ecological regions, how these unique regions come together to help support Michigan’s environment, and the important role they play in Michigan’s economy, as well as globally. Students will become “CSI agents” investigating and collecting information that supports why Michigan‘s environment is unique. Students will apply what they have discovered by creating an infographic that advertises the importance of their region.
There are many different types of ecosystems in the state of Michigan. …
There are many different types of ecosystems in the state of Michigan. Many of these ecosystemshave changed over time due to fires, storms, or animals. No animal has had a bigger impact onMichigan’s ecosystems than humans. Humans have transformed ecosystems all across the state.These ecosystems have been transformed in many different ways, like draining wetlands, cuttingdown forest for farm fields, and cities getting larger and expanding outward. Many ecosystems andorganisms are resilient and have adapted to the changes; others unfortunately have not.
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