无忧视频

Students Target N5800 Rocket Record

Physics major Chris Cotner 鈥�13 and engineering major Carlo Vaccari 鈥�13 hope to break the N-class motor altitude record this weekend when they launch their custom-designed, supersonic rocket.

Carlo Vaccari ’13

Built over the summer at 无忧视频, the rocket was created in response to the 鈥淔ly the N5800 to a Record Contest鈥� announced last spring by rocket motor manufacturer Cesaroni Technology Incorporated (CTI).

Large by hobbyist standards, the N5800 motor will burn for about three and a half seconds, have an average thrust of 1200 pounds and hurl the rocket up to a peak speed of 3.7 times the speed of sound.

Chris Cotner

鈥淎 major challenge is keeping the rocket from melting and breaking up under such tremendous velocity and dynamic pressure,鈥� said physics Professor Greg Lyzenga 鈥�75, who served as the students鈥� mentor. 鈥淎 number of college groups across the country have taken up the challenge ever since CTI announced it, but no individual or group has yet succeeded in building a high-performance, minimum-diameter rocket that survived the force of their N5800 motor.鈥�

Custom fincan

Vaccari and Cotner鈥檚 craft need only top 43,000 feet to break the existing N-class altitude record, but the students鈥� rocket may soar twice that high, Lyzenga said.

Named 鈥淏are Necessities,鈥� because it consists only of parts essential for recovery, data collection and aerodynamic stability and streamlining, the rocket was specifically designed to meet the demands placed upon it.

鈥淓very person who has tried for the N record using this particular motor has shredded their rocket. Our advantage is that we鈥檙e approaching it from a rational perspective based in our engineering, physics and machining backgrounds,鈥� said Cotner, who served as the rocket鈥檚 primary fabrication engineer. 鈥淲e designed every part for this application and manufactured them ourselves when our ideal designs didn鈥檛 match existing products.鈥�

Key components of their rocket include a nosecone layup鈥攄esigned by Vaccari using an ablative thermal protection system developed by Cotner鈥攁nd a machined fincan, which exists as a solid piece compared to the bolted or welded fins employed by failed rockets.

The team will launch their rocket Sept. 15 in Nevada鈥檚 Black Rock Desert, northeast of Gerlach. An official from Tripoli Rocketry Association will serve as a witness to the rocket鈥檚 launch and return, confirming whether it remained in flyable condition. A GPS receiver in the rocket will transmit altitude data, which will be saved on a flash drive and used by the Tripoli witness as proof of the altitude reached.