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The Big Mo
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Momentum is not only a physical principle; it is a psychological phenomenon. Students learn how the "Big Mo" of the bandwagon effect contributes to the development of fads and manias, and how modern technology and mass media accelerate and intensify the effect. Students develop media literacy and critical thinking skills to analyze trends and determine the extent to which their decisions may be influenced by those who manipulate a few opinion leaders. 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
Biodomes Engineering Design Project: Lessons 2-6
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In this multi-day activity, students explore environments, ecosystems, energy flow and organism interactions by creating a scale model biodome, following the steps of the engineering design process. The Procedure section provides activity instructions for Biodomes unit, lessons 2-6, as students work through Parts 1-6 to develop their model biodome. Subjects include energy flow and food chains, basic needs of plants and animals, and the importance of decomposers. Students consider why a solid understanding of one's environment and the interdependence of an ecosystem can inform the choices we make and the way we engineer our own communities. This activity can be conducted as either a very structured or open-ended design.

Author:
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Katherine Beggs
Denise Carlson
Christopher Valenti
Biomedical Engineering and the Human Body
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Human beings are fascinating and complex living organisms a symphony of different functional systems working in concert. Through a 10-lesson series with hands-on activities students are introduced to seven systems of the human body skeletal, muscular, circulatory, respiratory, digestive, sensory, and reproductive as well as genetics. At every stage, they are also introduced to engineers' creative, real-world involvement in caring for the human body.

Author:
Integrated Teaching and Learning Program,
See individual lessons and activities.
Biomimicry: Natural Designs
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Students learn about biomimicry and how engineers often imitate nature in the design of innovative new products. They demonstrate their knowledge of biomimicry by practicing brainstorming and designing a new product based on what they know about animals and nature.

Author:
Malinda Schaefer Zarske
Katherine Beggs
Integrated Teaching and Learning Program,
Denise Carlson
Blackout!
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Students read news reports and first-person accounts to imagine what it would be like to be in a blackout in a large city. They follow news reports as if the event were unfolding in real-time and keep weblogs or journals of their experience as they imagine it, taking on different roles of people who live in the city or commute there to work. They use their journal accounts to create a play or screenplay that depicts what the August 2003 blackout was like for the people in the U.S. and Canada who experienced it. Although this activity is geared towards fifth-grade and older students, it could be easily adapted for younger students.

Author:
Jane Evenson
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise W. Carlson
Blood Cell Basics
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Students will make a proportional model of blood out of red gelatin, a plastic bag, and rice. They will learn about the different components that make up blood and will investigate what happens when the arteries and veins experience buildup from cholesterol. They will then work in pairs to brainstorm ways to clean our clogged arteries.

Author:
Janet Yowell
Julie Marquez
Malinda Schaefer Zarske
Sara Born
Integrated Teaching and Learning Program,
Jessica Todd
Blow-and-Go Parachute
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Students make a skydiver and parachute contraption to demonstrate how drag caused by air resistance slows the descent of skydivers as they travel back to Earth. Gravity pulls the skydiver toward the Earth, while the air trapped by the parachute provides an upward resisting force (drag) on the skydiver.

Author:
Ben Heavner
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Sabre Duren
Denise Carlson
Body Full of Crystals
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Students learn about various crystals, such as kidney stones, within the human body. They also learn about how crystals grow and ways to inhibit their growth. They also learn how researchers such as chemical engineers design drugs with the intent to inhibit crystal growth for medical treatment purposes and the factors they face when attempting to implement their designs. A day before presenting this lesson to students, conduct the associated activity, Rock Candy Your Body.

Author:
Andrea Lee, Megan Ketchum
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs, University of Houston,
Bones! Bones! Bones!
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After learning, comparing and contrasting the steps of the engineering design process (EDP) and scientific method, students review the human skeletal system, including the major bones, bone types, bone functions and bone tissues, as well as other details about bone composition. Students then pair-read an article about bones and bone growth and compile their notes to summarize the article. Finally, students complete a homework assignment to review the major bones in the human body, preparing them for the associated activities in which they create and test prototype replacement bones with appropriate densities. Two PowerPoint(TM) presentations, pre-/post-test, handout and worksheet are provided.

Author:
Michelle Gallagher, Terri Camesano, Jeanne Hubelbank, Kristen Billiar, Dua Chaker, Carleigh Samson
Inquiry-Based Bioengineering Research and Design Experiences for Middle-School Teachers RET Program, Department of Biomedical Engineering, Worcester Polytechnic Institute,
Bouncing Balls
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Students examine how different balls react when colliding with different surfaces, giving plenty of opportunity for them to see the difference between elastic and inelastic collisions, learn how to calculate momentum, and understand the principle of conservation of momentum.

Author:
Bailey Jones
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise Carlson
Matt Lundberg
Chris Yakacki
Bouncing Balls (for High School)
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In this activity, students examine how different balls react when colliding with different surfaces. Also, they will have plenty of opportunity to learn how to calculate momentum and understand the principle of conservation of momentum.

Author:
Janet Yowell
Bailey Jones
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Ben Sprague
Denise Carlson
Matt Lundberg
Chris Yakacki
The Boxes Go Mobile
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To display the results from the previous activity, each student designs and constructs a mobile that contains a duplicate of his or her original box, the new cube-shaped box of the same volume, the scraps that are left over from the original box, and pertinent calculations of the volumes and surface areas involved. They problem solve and apply their understanding of see-saws and lever systems to create balanced mobiles.

Author:
Engineering K-PhD Program,
Mary R. Hebrank (project writer and consultant)
Breaking Beams
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Students learn about stress and strain by designing and building beams using polymer clay. They compete to find the best beam strength to beam weight ratio, and learn about the trade-offs engineers make when designing a structure.

Author:
Ben Heavner
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise Carlson
Chris Yakacki
Break the Tension
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Students learn about and experiment with the concept of surface tension. How can a paper clip "float" on top of water? How can a paper boat be powered by soap in water? How do water striders "walk" on top of water? Why do engineers care about surface tension? Students answer these questions as they investigate surface tension and surfactants.

Author:
Janet Yowell
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Denise Carlson
Jay Shah
Breathing Cells
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Students use a simple pH indicator to measure how much CO2 is produced during respiration, at rest and after exercising. They begin by comparing some common household solutions in order to determine the color change of the indicator. They review the concepts of pH and respiration and extend their knowledge to measuring the effectiveness of bioremediation in the environment.

Author:
Janet Yowell
Malinda Schaefer Zarske
Kaelin Cawley
Integrated Teaching and Learning Program,
Bridge Types: Tensile & Compressive Forces
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Students explore how tension and compression forces act on three different bridge types. Using sponges, cardboard and string, they create models of beam, arch and suspension bridges and apply forces to understand how they disperse or transfer these loads.

Author:
Malinda Schaefer Zarske
Natalie Mach
Integrated Teaching and Learning Program,
Denise W. Carlson
Chris Valenti
Denali Lander
Jonathan S. Goode
Joe Friedrichsen
Bridges
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Through a five-lesson series that includes numerous hands-on activities, students are introduced to the importance and pervasiveness of bridges for connecting people to resources, places and other people, with references to many historical and current-day examples. In learning about bridge types arch, beam, truss and suspension students explore the effect of tensile and compressive forces. Students investigate the calculations that go into designing bridges; they learn about loads and cross-sectional areas by designing and testing the strength of model piers. Geology and soils are explored as they discover the importance of foundations, bearing pressure and settlement considerations in the creation of dependable bridges and structures. Students learn about brittle and ductile material properties. Students also learn about the many cost factors that comprise the economic considerations of bridge building. Bridges are unique challenges that take advantage of the creative nature of engineering.

Author:
Integrated Teaching and Learning Program,
See individual lessons and activities.
Build a Charge Detector
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In this hands-on activity, students explore the electrical force that takes place between two objects. Each student builds an electroscope and uses the device to draw conclusions about objects' charge intensity. Students also determine what factors influence electric force.

Author:
Malinda Schaefer Zarske
Integrated Teaching and Learning Program,
Xochitl Zamora Thompson
Sabre Duren
Denise Carlson
Daria Kotys-Schwartz
Joe Friedrichsen
Build an Anemometer
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Students create their own anemometers instruments for measuring wind speed. They see how an anemometer measures wind speed by taking measurements at various school locations. They also learn about different types of anemometers, real-world applications, and how wind speed information helps engineers decide where to place wind turbines.

Author:
Malinda Schaefer Zarske
Natalie Mach
Integrated Teaching and Learning Program,
Denise W. Carlson
Sabre Duren
Xochitl Zamora-Thompson