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Title	Summary	Grade	Edu. Standards	Time	Associated Curriculum
You've Got to See It to Believe It!	Students develop an understanding of visible air pollutants with an incomplete combustion demonstration, a "smog in a jar" demonstration, building simple particulate matter collectors, and exploration... ... more Students develop an understanding of visible air pollutants with an incomplete combustion demonstration, a "smog in a jar" demonstration, building simple particulate matter collectors, and exploration of engineering roles related to air pollution. In an associated literacy activity, students learn basic marketing concepts and techniques, and the principles of comparative analysis, while creating an advertisement for a hybrid vehicle. Note: You may want to set up the activities for Air Pollution unit, Lessons 2 and 3, simultaneously as they require extended data collection time and can share test sites. ... less	5 (4-6)	Colorado (1995): Science	50 minutes	Subject Areas: 3 Curricular Units: 1 Activities: 2 Details
You Are What You Drink!	Contamination in drinking water sources or watersheds can negatively affect the organisms that come in contact with it. The affects can be severe — causing illness or, in some cases, even death. It ... ... more Contamination in drinking water sources or watersheds can negatively affect the organisms that come in contact with it. The affects can be severe — causing illness or, in some cases, even death. It is important for people to understand how they can contribute to the contaminants in drinking water and what treatment can be done to counter these harmful effects. Students will learn about the various methods developed by environmental engineers for treating drinking water in the United States. ... less	6 (5-7)	International Technology Education Association-ITEA STL Standards (2000): Technology Science	50 minutes	Subject Areas: 1 Curricular Units: 1 Activities: 2 Details
Work and Power: Waterwheel	Investigating a waterwheel illustrates to students the physical properties of energy. They learn that the concept of work, force acting over a distance, differs from power, which is defined as force a... ... more Investigating a waterwheel illustrates to students the physical properties of energy. They learn that the concept of work, force acting over a distance, differs from power, which is defined as force acting over a distance over some period of time. Students create a model waterwheel and use it to calculate the amount of power produced and work done. ... less	8 (7-9)	International Technology Education Association-ITEA STL Standards (2000): Technology Science Math	50 minutes	Subject Areas: 3 Curricular Units: 1 Activities: 1 Details
Will It Fly?	In this lesson, students will learn about kites and gliders and how these models can help in understanding the concept of flight. Students will design and build their own balsa wood models and experim... ... more In this lesson, students will learn about kites and gliders and how these models can help in understanding the concept of flight. Students will design and build their own balsa wood models and experiment with different control surfaces. The goal of this lesson is for students to apply their existing knowledge about the four forces affecting flight and apply engineering design to develop a sound glider. They will also communicate the reasoning and results of any design modifications made. ... less	6 (5-7)	International Technology Education Association-ITEA STL Standards (2000): Technology Science	50 minutes	Subject Areas: 1 Curricular Units: 1 Activities: 1 Details
Why Do We Build Dams?	Students are introduced to the concept of a dam and its potential benefits, which include water supply, electricity generation, flood control, recreation and irrigation. This lesson begins an ongoing ... ... more Students are introduced to the concept of a dam and its potential benefits, which include water supply, electricity generation, flood control, recreation and irrigation. This lesson begins an ongoing classroom scenario in which student engineering teams working for the Splash Engineering firm design dams for a fictitious client, Thirsty County. ... less	5 (4-6)	International Technology Education Association-ITEA STL Standards (2000): Technology Science	20 minutes	Subject Areas: 2 Curricular Units: 1 Activities: 1 Details
Who's Down the Well?	Drinking water comes from many different sources, including surface water and groundwater. Environmental engineers analyze the physical properties of groundwater to predict how and where surface conta... ... more Drinking water comes from many different sources, including surface water and groundwater. Environmental engineers analyze the physical properties of groundwater to predict how and where surface contaminants will travel. In this lesson, students will learn about several possible scenarios of contamination to drinking water. They will analyze the movement of example contaminants through groundwater such as environmental engineers must do (i.e., engineers identify and analyze existing contamination of water sources in order to produce high quality drinking water for consumers). ... less	6 (5-7)	International Technology Education Association-ITEA STL Standards (2000): Technology Science	50 minutes	Subject Areas: 1 Curricular Units: 1 Activities: 2 Details
Who Needs What?	The teacher leads a discussion in which students identify the physical needs of animals, and then speculate on the needs of plants. With guidance from the teacher, the students then help design an e... ... more The teacher leads a discussion in which students identify the physical needs of animals, and then speculate on the needs of plants. With guidance from the teacher, the students then help design an experiment that can take place in the classroom to test whether or not plants need light and water in order to grow. Sunflower seeds are planted in plastic cups, and once germinated, are exposed to different conditions. In particular, within the classroom setting it is easy to test for the effects of light versus darkness, and watered versus non-watered conditions. During exposure of the plants to these different conditions, students measure growth of the seedlings every few days using non-standard measurement. After a few weeks, they compare the growth of plants exposed to the different conditions, and make pictorial bar graphs that demonstrate these comparisons. ... less	1 (1-3)	North Carolina (2003): Math Science	30 minutes	Subject Areas: 3 Curricular Units: 0 Activities: 1 Details
Where's the Water?	In this lesson, the students will conduct an investigation to purify water. Students will engineer a method for cleaning water, discover the most effective way to filter water, and practice conducting a scientific experiment.	5 (5-5)	Colorado (1995): Science		Subject Areas: 1 Curricular Units: 1 Activities: 1 Details
Where is Here?	In this lesson, students are shown the very basics of navigation. The concepts of relative and absolute location, latitude, longitude and cardinal directions are discussed, as well as the use and principles of a map and compass.	8 (7-9)	International Technology Education Association-ITEA STL Standards (2000): Technology Science Math	50 minutes	Subject Areas: 3 Curricular Units: 1 Activities: 3 Details
Where Has All the Water Gone?	Students learn about the Earth's water cycle, especially about evaporation. Once a dam is constructed, its reservoir becomes a part of the region's natural hydrologic cycle by receiving precipitation,... ... more Students learn about the Earth's water cycle, especially about evaporation. Once a dam is constructed, its reservoir becomes a part of the region's natural hydrologic cycle by receiving precipitation, storing runoff water and evaporating water. Although almost impossible to see, and not as familiar to most people as precipitation, evaporation plays a critical role in the hydrologic cycle, and is especially of interest to engineers designing new dams and reservoirs, such as those that Splash Engineering is designing for Thirsty County. ... less	6 (5-7)	Colorado (2009): Science	20 minutes	Subject Areas: 5 Curricular Units: 1 Activities: 1 Details

Search By: A B C D E F G H I J K L M N O P Q R S T U V W X Y Z (show all)

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