This unit on weather, climate, and water cycling is broken into four separate lesson sets. In the first two lesson sets, students explain small-scale storms. In the third and fourth lesson sets, students explain mesoscale weather systems and climate-level patterns of precipitation. Each of these two parts of the unit is grounded in a different anchoring phenomenon.

The unit starts out with anchoring students in the exploration of a series of videos of hailstorms from different locations across the country at different times of the year. The videos show that pieces of ice of different sizes (some very large) are falling out of the sky, sometimes accompanied by rain and wind gusts, all on days when the temperature of the air outside remained above freezing for the entire day. These cases spark questions and ideas for investigations, such as investigating how ice can be falling from the sky on a warm day, how clouds form, why some clouds produce storms with large amounts of precipitation and others don’t, and how all that water gets into the air in the first place.

The second half of the unit is anchored in the exploration of a weather report of a winter storm that affected large portions of the midwestern United States. The maps, transcripts, and video that students analyze show them that the storm was forecasted to produce large amounts of snow and ice accumulation in large portions of the northeastern part of the country within the next day. This case sparks questions and ideas for investigations around trying to figure out what could be causing such a large-scale storm and why it would end up affecting a different part of the country a day later.

Using scrap metal and spare parts, William Kamkwamba created a windmill to harness the wind and bring electricity and running water to his Malawian village. The resource includes a lesson plan/book card, a design challenge, and copy of a design thinking journal that provide guidance on using the book to inspire students' curiosity for design thinking. Maker Challenge: Develop a way to harness the wind by designing with Strawbees.

A document is included in the resources folder that lists the complete standards-alignment for this book activity.

Climagraphs can tell us about the seasonal shifts in climate due to climate change. Changes in growing season and water balance in the Great Lakes region will have economic impacts.

What is the distinction between weather and climate? As a way to understand climate, students interpret climagraphs, and read about climate variability. An extension lesson has
students comparing climate data from different regions in the United States.

Students graph atmospheric carbon dioxide, emissions of carbon dioxide, and temperature throughout the years and compare the trends.

In this activity, learners make their own heat waves in an aquarium. Warmer water rising through cooler water creates turbulence effects that bend light, allowing you to project swirling shadows onto a screen. Use this demonstration to show convection currents in water as well as light refraction in a simple, visually appealing way.

CK-12 Earth Science For Middle School covers the study of Earth - its minerals and energy resources, processes inside and on its surface, its past, water, weather and climate, the environment and human actions, and astronomy.

As rain falls all over Michigan, the water gathers in small local watersheds, which feed into larger regional watersheds, which ultimately feed into the Great Lakes. Water that falls on the land in Michigan eventually flows into one of the Great Lakes because the elevation of the Great Lakes is generally lower than the elevation of the land in Michigan. Students will be able to use elevation maps to study water flow from watersheds emptying into the Great Lakes. Success with this lesson will happen when students can investigate the Great Lakes water flow and produce a simple diagram that illustrates this flow pattern.

Explore relationships between temperature, pressure, and humidity with daily weather forecasts.

GeoInquiries are designed to be fast and easy-to-use instructional resources that incorporate advanced web mapping technology. Each 15-minute activity in a collection is intended to be presented by the instructor from a single computer/projector classroom arrangement. No installation, fees, or logins are necessary to use these materials and software.

Objective
Students will be able to develop and use a model to understand the characteristics of the different layers of the Earth's Atmosphere.

Big Idea
Help students visualize the differences in temperature in Earth's atmosphere by having them create a model while practicing graphing skills.

Meg set out to climb up and investigate the rain forest tree canopies — and to be the first scientist to do so. But she encountered challenge after challenge. Male teachers would not let her into their classrooms, the high canopy was difficult to get to, and worst of all, people were logging and clearing the forests. Meg never gave up or gave in. She studied, invented, and persevered, not only creating a future for herself as a scientist, but making sure that the rainforests had a future as well. The resource includes a lesson plan/book card, a design challenge, and copy of a design thinking journal that provide guidance on using the book to inspire students' curiosity for design thinking. Maker Challenge: Your community has many different areas to explore - it might be a park, a grocery store, a forest, or an alley. For some people, it might be difficult to explore these areas because they may have differing abilities. Select one area in your community, and come up with a plan to build a way for it to be more accessible to everyone.

A document is included in the resources folder that lists the complete standards-alignment for this book activity.

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.

This lesson will discuss the details for a possible future manned mission to Mars. The human risks are discussed and evaluated to minimize danger to astronauts. A specialized launch schedule is provided and the different professions of the crew are discussed. Once on the surface, the crew's activities and living area will be covered, as well as how they will make enough fuel to make it off the Red Planet and return home.

OpenSciEd middle school is NGSS-aligned science curriculum. Designed for all students and teachers, OpenSciEd includes student-facing materials as well as teacher guides. As with most instructional materials, excellent professional learning for teachers should be provided. For more information in Michigan contact the Michigan Mathematics and Science Leadership Network, starrm@mimathandscience.org

Students learn that wind and storms can form at the boundaries of interacting high and low pressure air masses. They learn the distinguishing features of the four main types of weather fronts (warm fronts, cold fronts, stationary fronts and occluded fronts) and how those fronts are depicted on a surface weather analysis, or weather map. Students also learn several different ways that engineers help with storm prediction, analysis and protection.

Use hurricane track information to understand factors that encourage the formation of hurricanes.

GeoInquiries are designed to be fast and easy-to-use instructional resources that incorporate advanced web mapping technology. Each 15-minute activity in a collection is intended to be presented by the instructor from a single computer/projector classroom arrangement. No installation, fees, or logins are necessary to use these materials and software.

In this activity, learners create a tornado in a bottle to observe a spiraling, funnel-shaped vortex. A simple connector device allows water to drain from a 2-liter bottle into a second bottle. Learners can observe the whirling water and then repeat the process by inverting the bottle. Use this activity to talk about surface tension, pressure, gravity, friction, angular momentum, and centripetal force.

Students are introduced to the basics of the Earth's weather. Concepts include fundamental causes of common weather phenomena such as temperature changes, wind, clouds, rain and snow. The different factors that affect the weather and the instruments that measure weather data are also addressed.

Sixth grade students in Boston, MA created a geology book for young readers with a unique format: it is written as a graphic informational book, similar to the graphic novels that students enjoy.  During a four-month investigation, the students explored a nearby geological feature, Hemlock Gorge, in order to understand geological processes. This film features interviews with the teacher and former students, and poses the question of what understanding actually looks like, and how students can demonstrate it. Illuminates Massachusetts Science Standard: Earth’s History: "Describe and give examples of ways in which the earth’s surface is built up and torn down by natural processes, including deposition of sediments, rock formation, erosion, and weathering."