Curated OER
Oceans: Water, Water Everywhere. . . but Only on the Earth!
It's not long, but it's thorough! This PowerPoint takes 4th - 8th grade earth scientists deeper into the oceans. They learn about tide and current activity and the forces that drive them. They also discover how wind and the rotation of...
K12 Reader
Water Carves the Land
What affect do bodies of water have on the world around us? Kids can find out by reading this passage. After reading, they answer five questions related to the text.
Curated OER
The Work of Waves and Wind
This is not revolutionary, but it is informative. Earth science viewers in grades 7-12 get carried away with wave and wind erosion. They view diagrams of how waves impact ocean shorelines. They see examples of the different types of sand...
Bonneville
How to Build a Turbine
Here is a six-minute video of a pair of electrical engineers that illustrate how to build a wind turbine. A list of materials is provided, along with general guidelines for your class. Use this to introduce turbine design to your...
Curated OER
Forces That Shape the Earth: Wind, Water and Erosion
In this forces of nature worksheet, students read a 2 page article on the forces of nature and answer 4 detailed comprehension questions about the forces of nature on Earth.
Curated OER
Weathering and Wind
In this weathering and wind worksheet, students simulate the effects of weathering by wind using 2 canisters, 2 types of sandpaper and 2 sugar cubes. Students swirl the sugar cubes inside the canisters lined with fine and course...
Curated OER
RIDING THE WIND
Students locate the Trade Winds, Westerlies and Polar Easterlies on a map, explain the impact of the rotation of the Earth, and plot a route for a round trip voyage from New York to London.
Centers for Ocean Sciences
Ocean and Great Lakes Literacy: Principle 1
Is your current lesson plan for salt and freshwater literacy leaving you high and dry? If so, dive into part one of a seven-part series that explores the physical features of Earth's salt and freshwater sources. Junior hydrologists...
Curated OER
The Atmosphere
Here is a suitable set of slides to use when teaching about the layers of the atmosphere, climate, global winds, and types of clouds. These slides will support a few different lectures. You will probably want to replace the diagrams with...
Curated OER
Forces of Nature Vocabulary Quiz
In this science worksheet, learners draw lines to match 13 words pertaining to forces of nature to their definitions in another column. Example: tornado, tide, erosion, pressure.
Curated OER
If You're Under Pressure, Blame It On The Air Force
Students complete an experiment in which they demonstrate that air exerts a force. In groups, they create their own siphon and define air pressure. They estimate the time it might take to siphon various amounts of water. They collect,...
Curated OER
Winds Go Spinning Around
Students simulate the Coriolis Effect to comprehend why winds in the Westerlies are prone to cyclonic and anti-cyclonic motion. They arrive at an explanation of processes that drive world wind patterns
Curated OER
What Makes Airplanes Fly?
Students examine force and conduct activities that model parachutes and helicopters. In this airplanes lesson students identify the forces that make airplanes fly higher and land.
Curated OER
Constructive and Destructive forces
Young scholars explore constructive and destructive forces. In this constructive and destructive forces lesson, students complete a WebQuest. Young scholars explore the different types of forces and their effect on the surrounding...
Curated OER
Let Me Tell You About...
Students comprehend the differences between flat maps and relief or topographical maps. They recognize how forces such as earthquakes, volcanoes, water, and wind-as well as human actions--have altered the Earth's surface. Students work...
Energy for Keeps
Going for a Spin: Making a Model Steam Turbine
Discover the effectiveness of wind, water, and steam as energy sources. The hands-on activity has young scientists create a turbine from common materials. After constructing the turbines, they use wind, water, and steam to turn them and...
Curated OER
The Great Ocean Conveyor
Students investigate water density. In this water density lesson, students conduct an experiment with food coloring, water and salt to see how the salt effects bodies of water.
NOAA
Your Own El Nino
Scholars make a model to discover how the force of trade winds over the Pacific Ocean creates an El Niño. Super scientists observe how the severe weather affects life in water and on land.
NOAA
A Laboratory Simulation of Ocean Surface Currents
Stimulate interest in ocean currents with a simulation. The first installment of a five-part middle school series teaches future oceanographers about the forces that interact to cause ocean currents. A simulation shows how wind and the...
Curated OER
Upwelling - Cold One Day, Warm Another?
Discuss with your oceanographers what forces cause nearshore upwelling and downwelling. Display a line of wind vectors alongside a graph of the temperatures so that they can discover whether or not they are related. Discussion questions...
Curated OER
Air Pressure and Wind
Fifth graders study air pressure and learn how it can change the weather. In this air pressure lesson, 5th graders study the given diagrams and complete the experiments to learn how air pressure can change the weather. Students read...
Curated OER
Understanding Weather
A succinct set of slides covers the main points for your weather unit. From the factors that contribute to conditions, to fronts and extreme occurrences, to the different types of clouds, numerous facts are listed in bullets. The only...
Curated OER
A Comparison of Cloud Coverage over Africa
Students identify different climate regions and local weather patterns. In this cloud coverage lesson students use NASA satellite data and import it into Excel.
Curated OER
Earth Science
Students explore how water and waves erode the earth. In this erosion instructional activity students determine the processes of wave erosion and building.