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Before the challenge.
1.Build the race course. The ramp should include bumps or other rough terrain, but can also be made from cardboard posters taped together and propped up against a table or lectern, as demonstrated at the ASEE K-12 Workshop in 2015 (photo, above right). The ramp the University of Virginia engineering outreach program uses starts with a bumpy plastic kids’ slide, followed by wooden plywood panels with speed bumps across them. Watch videos of a successful and not so successful trial run! With the students.
2. Introduce the challenge. Teams will construct small vehicles from recycled materials that they either will release at the top of the ramp or push along down a series of slides. The body of each vehicle has a rectangular cut in its top, through which 50 milliliters of water will be poured at the start of the trial. The goal: Race (or be propelled ) down the ramp and spill as little water as possible.
3. Planning. Ask students to explore the available materials, seeing which are the heaviest or lightest. Which materials slide well across the table? Have them test some of the sample materials to see how they perform and brainstorm different combinations for their sliders. Discuss the tradeoffs between speed, steadiness, and ability to hold water without tilting or tipping over, then pick an idea to design and test. How will they suspend the water-filled vehicle to reduce splashes and spills?
4.Create. Ask teams to determine which materials to use and construct their designs. Will they change the surface material or the weight? How will they attach all of the components?
5. Test. Teachers and volunteers might want to help teams test their designs. Ask them to try changing just one thing on their design and testing again.
6. Improve. Which design worked best? What did you learn from your tests? How could you make an even faster or sturdier slider?
For each team:
• One empty 2-liter plastic bottle with a rectangular opening cut in the side. (This will be the top of the vehicle’s body.)
For the group:
•Measuring cup (to measure 500 milliliters of water into each vehicle)
•Assorted trash or recycled items, such as plastic water bottles, packing materials, bubble wrap, cloth, paper, coat hangars, cotton balls, golf balls, rubber, washers, etc.
Free, except for materials.
6-8 grade, though can be adapted for high school. Teams of 2-4 students.
Outcome of the Activity:
After doing this activity, students should be able to: •Understand how static and kinetic friction are important concepts in engineering design. •Apply their knowledge of friction, drag, mass, and gravity to the design of their sliders •Demonstrate their knowledge of potential and kinetic energy •Experience the engineering design process •Recognize that different materials and surfaces have different frictional coefficients. •Understand the link between recycling and sustainability •Develop new uses for discarded trash
United States39° 55' 6.3372" N, 75° 8' 11.958" W