Sigma Xi- Rocketry Presentation

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  1. 1. BLAST OFF!Investigations in Model Rocketry
  2. 2. My name is Natasha Honcharik and I am a Sophomore atWachusett Regional High School. I started my research in rocketry in September of 2011. My experiments were performed at home and in sports fields atmy school.
  3. 3. PURPOSE: The purpose of this experiment is to find out what factors in amodel rocket engines design affect the maximum altitude of therocket and the temperature of the engines flame.
  4. 4. BACKGROUND INFORMATION: Engines are designated with a letter and a number. The letterindicates impulse, or total change in momentum, and the numberindicates average thrust in newtons. A engines have a 2.5 newton-second impulse and B engines have a 5.0 newton-second impulse. Thrust * burn time = total impulse Factors affecting engine performance:o Type/Amount of propellanto Nozzle sizeo Burn patterns
  5. 5. BACKGROUND INFORMATION:Burn PatternsSolid fuel only burns on thesurface, called the flame front.Burn patterns are the way theflame front changes.A larger flame front at onepoint in time means more fuelburning at once and morethrust.The flame front (shown inyellow) starts as a cone shapecorresponding with the initialpeak in these example thrustcurves.
  6. 6. HYPOTHESIS: If a rocket engine with a greater total impulse is used then therockets apogee (highest point reached) will be higher. This was justified because impulse is equal to change in momentum. A greater momentum would mean the rocket would reach a greater velocity and thus a greater altitude. If a rocket engine with the same total impulse but a greateraverage thrust is used then the flame will have a higher averagetemperature.This was justified because a higher thrust is caused by a larger flame frontwhere more fuel is burning at once. Because more fuel was burning at once,it was hypothesized that the temperature from the flame would be hotter.
  7. 7. PROCEDURE (EXPERIMENT # 1): Independent variable: type of engine Dependent variable: altitude reached The rocket was remotely launched and recovered ten times with each of fourengine types (A6, A8, B4, and B6) and altitude data was recorded by anelectronic altimeter inside the rocket.
  8. 8. PROCEDURE (EXPERIMENT # 2): Independent variable: type of engine used Dependent variable: average flame temperature The engines were placed upside down in this apparatus and ignited remotely.The average temperature was measured with a temperature probe. Average burn time was measured with a video camera and multiplied by theaverage thrust given by the manufacturer to calculate total impulses. CylindricalTemperature hole probeIgnitionwireCementslabs
  9. 9. PROCEDURE (EXTENSION): Independent variable: engine type Dependent variable: thrust produced The same apparatus was used with a force plate replacing the bottom concrete slab.
  10. 10. RESULTS (ALTITUDE):This is a box and whisker graph of the altitude data recorded. Student t -testswere performed and there was found to be a statistically significant differencebetween each group. A8 engines reached the lowest altitude, followed byA6, B4, and B6.
  11. 11. RESULTS (TEMPERATURE): This is a box and whisker graph of the temperature data recorded. Student t-tests were performed and there was found to be a statistically significant difference between each group except between A6 and B6 engines which were also the lowest in temperature overall.(note: temperatureis relative becausethe probe could notbe placed directlyin the flame withoutdamage, so radiantheat wasmeasured.)
  12. 12. RESULTS (extension):This is an example graph of one ofthe B4 engines thrust curves. Notethe initial spike and then leveling off.This includes only the propellantphase of the engine.This curve was averaged andmultiplied by burn times to calculateimpulses which were found to beclose to but less than the givenimpulses. These were then used toroughly predict altitudes without airresistance.
  13. 13. RESULTS (EXTENSION- PREDICTED ALTITUDE):In these graphs of impulse and propellant mass vs. altitude, the blue represents theactual average altitude of each engine type. The red is the predicted altitude without airresistance using thrust and burn time data from the National Association of Rocketry, andthe green is the same calculated altitude using my measured data. Altitude increaseslinearly with impulse and propellant mass, while the altitude without air resistanceincreases exponentially because calculations for air resistance involve velocity squared.
  14. 14. CONCLUSIONS: An engine with a higher impulse does yield a higher altitude. However engines with the same impulse ranking do not always reach the samealtitudes because the rankings are maximums, not exact values. Temperature was not related to thrust as hypothesized. While both thrust andtemperature are affected by burn patterns and propellant formula, thrust is alsoaffected by nozzle design, causing it to differ.
  15. 15. CONCLUSIONS: Quest brand engines (A6 and B6) were more efficient than Estes brand (A8and B4). They reached a higher altitude with approximately the same amount ofpropellant. Quest engines also had an overall lower temperature. This shows that theymore efficiently converted their fuels chemical energy into thrust rather thanthermal energy. This may be due to Quests greater attention to nozzle design. Questengines were found to not only have smaller nozzles, but they also haddifferent nozzle sizes for different engines whereas Estes brand engines allhad the same size nozzle. Quest is a smaller, lesser known brand, so Estesmass production might lead to less attention to individual detail and lessefficiency.
  16. 16. ACKNOWLEDGEMENTS: Thank you to my parents who bought me lots of rocket engines andsupervised my experiments. Thanks to Dr. Neil Ault for being my adviser at science seminar. Thank you to my physics teacher Mrs. Carol Sullivan for helping me everystep of the way and being the best teacher ever. Also thanks to my school, Wachusett, for lending equipment and facilities.THANK YOU!!