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Drinking Water Probe Teacher Notes Purpose: The purpose of this activity probe is to identify and clarify the different misconceptions that students have about where their drinking water comes from. Definitions: Aquifer- Layers of rock that hold water under the ground. Porosity- the open spaces between rocks Permeability- the ability of water to flow through rocks Explanation: The best answers are from Dante and Olivia. Aquifers are the water source for many cities and farms. Dante’s answer of “from the river” is true because some cities pump water from rivers, and Olivia’s answer of “trapped underground” is an accurate description of what an aquifer is. A major misconception regarding the water in aquifers is that the water is flowing underground in a “river” or “lake.” This may be true occasionally, however the vast majority of underground water in aquifers is trapped in-between the small open pores and cracks that are found in rock formations (porosity and permeability). This is the misconception behind Kenji’s answer. In Curtis’s answer you can tell that he is thinking about the water cycle and the origin of drinking water, but the problem with his statement is that he thinks we drink rain water as it is. Finally, the problem with Rena’s answer is that she is focusing on the end result of the drinking water process, not the origin. Instructional Uses: Elementary Level: This misconception probe is mainly for students that are in the elementary grades. The main take away point of this probe is that there are two main places that we get our drinking water from; rivers and aquifers. It is also meant to be used to clear up the misconception that groundwater exists in subterranean rivers. Middle and High School Level: If the misconception of groundwater existing as subterranean rivers was not cleared up during elementary school it can persist through middle school and even high school. Due to the more developed scientific knowledge that middle and high school students have and because this misconception is categorized as one of the “‘Easier to Address’ earth science misconceptions”, clarifying this misconception should not be difficult. 31 Property of the University of Iowa: Iowa Core Standards: Earth and Space: K-2: S. ES 1: Understand and apply knowledge of properties of earth materials. Earth materials are solid rocks and soils, water and the gases of the atmosphere. The varied materials have different physical and chemical properties. Soils have properties of color and texture, capacity to retain water, and ability to support the growth of many kinds of plants, including those in our food supply. 3-5: S. ES 1: Understand and apply knowledge of properties and uses of earth materials. The different physical and chemical properties of earth materials make them useful in different ways, for example, as building materials, as sources of fuel, or for growing the plants we use as foods. 6-8: S. ES. 1:Understand and apply knowledge of the structure and processes of the earth system and the processes that change the earth and its surface. The solid earth consists of layers including a lithosphere; a hot, convecting mantle and a dense metallic core. Some changes in the earth can be described as the “rock cycle.” Rocks at the earth’s surface weather, forming sediments that are buried, then compacted, heated, and often re– crystallized into new rock. Eventually, those new rocks may be brought to the surface by the forces that drive plate motions, and the rock cycle continues. Soil consists of weathered rocks and decomposed organic matter from dead plants, animals, and bacteria. Soils are often found in layers, with each having a different chemical composition and texture. Living organisms have played many roles in the earth system, including affecting the composition of the atmosphere, producing some types of rocks, and contributing to the weathering of rocks. S. ES 2: Understand and apply knowledge of the water cycle, including consideration of events that impact groundwater quality. Water, which covers the majority of the earth’s surface, circulates through the crust, oceans, and atmosphere in what is known as the “water cycle.” Water evaporates from the earth’s surface, rises and cools as it rises to higher elevations, condenses as rain or snow, and falls to the surface where it collects in lakes, oceans, soil and in soil and rocks underground. 32 Property of the University of Iowa: Water is a solvent. As it passes through the water cycle, especially as it moves on the earth’s surface and underground, it dissolves minerals and gases and carries them to the oceans, rivers, and other surface water. Natural and human forces can contribute to contamination of surface water and groundwater. 9-12: S. ES 3: Understand and apply knowledge of origin and evolution of the earth system. Geologic time can be estimated by observing rock sequences and using fossils to correlate the sequences at various locations. Current methods for measuring geologic time include using the known decay rates of radioactive isotopes present in rocks to measure the time since the rock was formed. Related Concepts: Water treatment, well systems, water contaminates, rock formation and cycle, water cycle References: "Iowa Core." Iowa Core. N.p., n.d. Web. 29 Apr. 2015. <https://iowacore.gov/>. Kirkby, Kent. "Misconception List." Introductory Courses. NAGT, n.d. Web. 1 May 2015. <http://serc.carleton.edu/NAGTWorkshops/intro/misconception_list.html>. Pictures were retrieved from: http://bestclipartblog.com/clipart-pics/river-clip-art-17.gif. http://www.shutterstock.com/pic-139737118/stock-photo-girl-with-bucket-catching-rain-dropsillustration.html. http://rollingknollsestates.com/aquifers_&_groundwater_files/image004.jpg . http://water.me.vccs.edu/courses/ENV115/clipart/cave.gif. 33 Property of the University of Iowa: