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Shepard physics students learn by doing

Shepard High School physics students get ready test homemade wind turbines. | Supplied photo

Shepard High School physics students get ready to test homemade wind turbines. | Supplied photo

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Updated: May 1, 2013 1:33PM



All the hours of theoretical debate, design work, manufacturing and trials of their wind turbines funneled to one moment for physics students at Shepard High School: Could they generate enough power to lift a five-gallon bucket to the ceiling of the gym?

The teams attached pulleys to their machines and, after adjusting the position and angle of the fans providing the wind power, watched the bucket rise more than 30 feet.

Teacher Brian Sievers, who designed his own turbine for the project, applauded the effort, enthusiasm and performances. Perhaps most important, he watched students solve problems and think creatively to find solutions.

“One team realized that while their large fan design worked well, it also allowed for more air-leakage pathways. This resulted in a re-evaluation of the construction,” Sievers said.

The second team encountered an even larger problem.

“Their wind turbine performed poorly when they placed both fans together on the same side. However, they realized if they put fans on the opposite sides of each other, one in front and one behind the turbine, and pointed one fan low and the other high, their turbine’s performance improved astronomically,” he said.

For the advanced-placement students, many of whom will pursue degrees in engineering, physics and other sciences, such projects provide a glimpse of their futures.

“Students benefit several ways. One way is by learning the trial and error involved in design. Students develop an idea and test it, then refine their design to optimize performance,” Sievers said.

And they learn that failure — or at least imperfection — comprises an important part of the learning process.

“It’s invaluable in life, not just engineering. As with any idea, you see how it works and make changes to improve. So you can say a project like this goes beyond engineering. It prepares them to not only be inventors and designers but evaluators also,” Sievers said.

Designing and building the wind turbines involved the application of many physics principles, including energy conversion, rotation, wind power, and torque and accounting for energy loss from friction.

Applying principles through hands-on projects greatly enhances learning, Sievers said.

“Students love to design and build. All too often, students today do not ‘tinker’ with tools and build things. That is one of the great losses in education today,” Sievers said.

He said students need to see failure and be allowed to refine their design.

”If a student builds a machine and truly analyzes its performance, that student is developing good reasoning skills that will serve well in life,” Sievers said.

Staff reports



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