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A small number of studies have found that antrenant and ope ners often produce more torque than traditional methods - up to 25% higher than their peers. However, the biggest advantage of the antrenand and open method is that it works at any angle, including while spinning on a turntable or while an object is rotating around a center. This allows for more complex designs with higher maximums and improved accuracy. The antrenand and open method uses electric motors built into the end of its handles to drive rotary axes. The systems are typically made of aluminum, with special software allowing for more automated build process. They are constructed to operate by hand or on a computer, depending on the complexity of the design. The antrenand and open are used in several classes at the North American Model Rocket Association (NARMA)’s Shenandoah Valley Fly-Thru in Virginia. They have also been used in high school science projects at schools around the country in fields including wood, engineering, physics, chemistry and robotics. In 2012, a team from Virginia Tech's aviation department used antrenand and open devices to measure the dynamic angle of an airplane wing by spinning a propellor at varying speeds. Forcing material to move at different speeds produces a change in shape, which can be compared to finding the center of mass in the same way one might balance a scale model. The team's design used two antrenand and open devices, which were driven by a hand-powered electric motor in one arm and a computer in the other arm. The antrenand and open could be positioned in any direction, allowing for accurate measurements of several degrees. The team's design was picked as one of the winners of Virginia Tech's annual Design for Change competition, which challenges students to use advanced engineering techniques to solve community issues. Their results were published in the "Journal of Fluid Mechanics" in 2014. The Virginia Tech team also found that by forcing the propeller to spin faster, they could measure its lift more accurately. Their research suggested that using antrenand and open devices could allow engineers to measure any object's dynamic angle more precisely than by other methods. The team's work won Virginia Tech a $500,000 Hycon Foundation grant that was announced by U.S. President Barack Obama in 2014. The grant will be used to develop an inexpensive, portable device that would allow firefighters to more accurately determine the angle of a building's roof before searching for victims. In 2007, NASA Langley Research Center published a paper on the use of antrenand and open devices as a tool for aerodynamic drag measurements. The paper outlined how engineers could use the devices to determine drag at various angles under a range of wind speeds and wing positions. The results would allow for more accurate model testing and continued development of new aircraft models. cfa1e77820