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By Land, Sea or Air
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In this lesson, students learn that navigational techniques change when people travel to different places land, sea, air and in space. For example, an explorer traveling by land uses different methods of navigation than a sailor or an astronaut.

Author:
Matt Lippis
Malinda Schaefer Zarske
Penny Axelrad
Integrated Teaching and Learning Program,
Denise W. Carlson
Denise Carlson
TeachEngineering.org
Can You Catch the Water?
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Students construct three-dimensional models of water catchment basins using everyday objects to form hills, mountains, valleys and water sources. They experiment to see where rain travels and collects, and survey water pathways to see how they can be altered by natural and human activities. Students discuss how engineers design structures that impact water collection, as well as systems that clean and distribute water.

Author:
Janet Yowell
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise W. Carlson
Jay Shah
A Case of Innovation
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Students learn about power generation using river currents. A white paper is a focused analysis often used to describe how a technology solves a problem. In this literacy activity, students write a simplified version of a white paper on an alternative electrical power generation technology. In the process, they develop their critical thinking skills and become aware of the challenge and promise of technological innovation that engineers help to make possible. This activity is geared towards fifth grade and older students and computer capabilities are required. Some portions of the activity may be appropriate with younger students. CAPTION: Upper Left: Trey Taylor, President of Verdant Power, talks about green power with a New York City sixth-grade class. Lower Left: Verdant Power logo. Center: Verdant Power's turbine evaluation vessel in New York's East River. In the background is a conventional power plant. Upper Right: The propeller-like turbine can be raised and lowered from the platform of the turbine evaluation vessel. Lower Right: Near the East River, Mr. Taylor explains to the class how water currents can generate electric power.

Author:
Jane Evenson
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Cindy Coker
Denise W. Carlson
Trey Taylor
Challenges of Laparoscopic Surgery
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Students teams use a laparoscopic surgical trainer to perform simple laparoscopic surgery tasks (dissections, sutures) using laparoscopic tools. Just like in the operating room, where the purpose is to perform surgery carefully and quickly to minimize patient trauma, students' surgery time and mistakes are observed and recorded to quantify their performances. They learn about the engineering component of surgery.

Author:
TeachEngineering.org
Integrated Teaching and Learning Program,
Benjamin S. Terry, Brandi N. Briggs, Stephanie Rivale, Denise W. Carlson
Charge It!
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Students use balloons to perform several simple experiments to explore static electricity and charge polarization.

Author:
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Xochitl Zamora Thompson
Denise W. Carlson
Sabre Duren
Daria Kotys-Schwartz
Joe Friedrichsen
Circuits
Read the Fine Print
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Students are introduced to several key concepts of electronic circuits. They learn about some of the physics behind circuits, the key components in a circuit and their pervasiveness in our homes and everyday lives. Students learn about Ohm's Law and how it is used to analyze circuits.

Subject:
Applied Science
Engineering
Physical Science
Physics
Material Type:
Activity/Lab
Lesson Plan
Author:
Denise W. Carlson
Integrated Teaching and Learning Program,
Lauren Cooper
Malinda Schaefer Zarske
TeachEngineering.org
Tyler Maline
Date Added:
09/18/2014
Clean Energy: Hydropower
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Hydropower generation is introduced to students as a common purpose and benefit of constructing dams. Through an introduction to kinetic and potential energy, students come to understand how a dam creates electricity. They also learn the difference between renewable and non-renewable energy.

Author:
Sara Born
Kristin Field
Integrated Teaching and Learning Program,
Denise W. Carlson
Michael Bendewald
Cleaning Up with Decomposers
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Students investigate decomposers and the role of decomposers in maintaining the flow of nutrients in an environment. Students also learn how engineers use decomposers to help clean up wastes in a process known as bioremediation. This lesson concludes a series of six lessons in which students use their growing understanding of various environments and the engineering design process, to design and create their own model biodome ecosystems.

Author:
Malinda Schaefer Zarske
Katherine Beggs
Integrated Teaching and Learning Program,
Denise W. Carlson
Clearing a Path to the Heart
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Following the steps of the engineering design process and acting as biomedical engineers, student teams use everyday materials to design and develop devices and approaches to unclog blood vessels. Through this open-ended design project, they learn about the circulatory system, biomedical engineering, and conditions that lead to heart attacks and strokes.

Author:
Todd Curtis
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise W. Carlson
Jay Shah
Completing the Circuit
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In the everyday electrical devices we use calculators, remote controls and cell phones a voltage source such as a battery is required to close the circuit and operate the device. In this hands-on activity, students use batteries, wires, small light bulbs and light bulb holders to learn the difference between an open circuit and a closed circuit, and understand that electric current only occurs in a closed circuit.

Author:
Janet Yowell
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Xochitl Zamora Thompson
Denise W. Carlson
Sabre Duren
Daria Kotys-Schwartz
Joe Friedrichsen
Construct and Test Roofs for Different Climates
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We design and create objects to make our lives easier and more comfortable. The houses in which we live are excellent examples of this. Depending on your local climate, the features of your house have been designed to satisfy your particular environmental needs: protection from hot, cold, windy and/or rainy weather. In this activity, students design and build model houses, then test them against various climate elements, and then re-design and improve them. Using books, websites and photos, students learn about the different types of roofs found on various houses in different environments throughout the world.

Author:
Center for Engineering Educational Outreach,
Martha Cyr; 2011 additions and attachments by Abigail T. Waltrous and Denise W. Carlson, University of Colorado Boulder
Cosmic Rhythm
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Students write poems using rhyme and meter as they come to understand the mechanical concept of rhythm, based on the principle of oscillation, in a broader biological and cultural context, as seen in dance and sports, poetry and other literary forms, and communication in general. Note: The literacy activities for the Mechanics unit are based on physical themes that have broad application to our experience in the world — concepts of rhythm, balance, spin, gravity, levity, inertia, momentum, friction, stress and tension.

Author:
Jane Evenson
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise W. Carlson
Cost Comparisons
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Students learn about the many types of expenses associated with building a bridge. Working like engineers, they estimate the cost for materials for a bridge member of varying sizes. After making calculations, they graph their results to compare how costs change depending on the use of different materials (steel vs. concrete). They conclude by creating a proposal for a city bridge design based on their findings.

Author:
Malinda Schaefer Zarske
Natalie Mach
Integrated Teaching and Learning Program,
Denise W. Carlson
Denali Lander
Jonathan S. Goode
Joe Friedrichsen
Creepy Silly Putty
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Students learn about viscoelastic material behavior, such as strain rate dependence and creep, by using silly putty, an easy-to-make polymer material. They learn how to make silly putty, observe its behavior with different strain rates, and then measure the creep time of different formulations of silly putty. By seeing the viscoelastic behavior of silly putty, students start to gain an understanding of how biological materials function. Students gain experience in data collection, graph interpretation, and comparison of material properties to elucidate material behavior. It is recommended that students perform Part 1of the activity first (making and playing with silly putty), then receive the content and concept information in the associated lesson, and then complete Part 2 of the activity (experimenting and making measurements with silly putty).

Author:
Marissa H. Forbes
Integrated Teaching and Learning Program,
Brandi N. Briggs
Denise W. Carlson
DNA Build
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Students reinforce their knowledge that DNA is the genetic material for all living things by modeling it using toothpicks and gumdrops that represent the four biochemicals (adenine, thiamine, guanine, and cytosine) that pair with each other in a specific pattern, making a double helix. They investigate specific DNA sequences that code for certain physical characteristics such as eye and hair color. Student teams trade DNA "strands" and de-code the genetic sequences to determine the physical characteristics (phenotype) displayed by the strands (genotype) from other groups. Students extend their knowledge to learn about DNA fingerprinting and recognizing DNA alterations that may result in genetic disorders.

Author:
Janet Yowell
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise W. Carlson
Megan Schroeder
DNA: The Human Body Recipe
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As a class, students work through an example showing how DNA provides the "recipe" for making our body proteins. They see how the pattern of nucleotide bases (adenine, thymine, guanine, cytosine) forms the double helix ladder shape of DNA, and serves as the code for the steps required to make genes. They also learn some ways that engineers and scientists are applying their understanding of DNA in our world.

Author:
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise W. Carlson
Frank Burkholder
Jessica Todd
Dam Forces
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Students learn how the force of water helps determine the size and shape of dams. They use clay to build models of four types of dams, and observe the force of the water against each type. They conclude by deciding which type of dam they, as Splash Engineering engineers, will design for Thirsty County.

Author:
Sara Born
Kristin Field
Denise W. Carlson
Timothy M. Dittrich
Lauren Cooper
Denali Lander
Integrated Teaching and Learning Program and Laboratory,
Megan Podlogar
Dam Impacts
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While the creation of a dam provides many benefits, it can have negative impacts on local ecosystems. Students learn about the major environmental impacts of dams and the engineering solutions used to address them.

Author:
Sara Born
Kristin Field
Integrated Teaching and Learning Program,
Denise W. Carlson
Michael Bendewald
Denali Lander
Dam Pass or Fail
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Students conduct Internet research to investigate the purpose and current functioning status of some of the largest dams throughout the world. They investigate the success or failure of eight dams and complete a worksheet. While researching the dams, they also gain an understanding of the scale of these structures by recording and comparing their reservoir capacities. Students come to understand that dams, like all engineered structures, have a finite lifespan and require ongoing maintenance and evaluation for their usefulness.

Author:
Kristin Field
Integrated Teaching and Learning Program,
Denise W. Carlson
Jeff Lyng
Denali Lander
TeachEngineering.org
Megan Podlogar
Daylighting Design
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Students explore the many different ways that engineers provide natural lighting to interior spaces. They analyze various methods of daylighting by constructing model houses from foam core board and simulating the sun with a desk lamp. Teams design a daylighting system for their model houses based on their observations and calculations of the optimal use of available sunlight to their structure.

Author:
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise W. Carlson
Lauren Cooper
Landon B. Gennetten