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Analysis of Rocket Flights E80 Spring 2008 Section 2, Team 2 Student 1, Student 2, Student 3, and Student 4.

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Presentation on theme: "Analysis of Rocket Flights E80 Spring 2008 Section 2, Team 2 Student 1, Student 2, Student 3, and Student 4."— Presentation transcript:

1 Analysis of Rocket Flights E80 Spring 2008 Section 2, Team 2 Student 1, Student 2, Student 3, and Student 4

2 Introduction Model and analyze the flights of four different rockets Three bore sizes: –Small: 2 inches –Medium: 2.25 inches –Large: 3 inches Three types of on-board instrumentation: –IMU navigation sensors –Temperature and pressure sensors –Vibration sensors Compare flight data to predictions made using RockSim

3 Background Vibration rocket –16 Piezoelectric dynamic strain gauges Temperature and Pressure rocket –4 thermistors –Pitot tube pressure sensor IMU rocket –3 accelerometers on orthogonal axes

4 Background Assigned rockets –Large vibration –Large IMU –Medium temperature and pressure –Small vibration R-DAS acquisition system –Store data on-board (200 Hz sampling rate) –Transmit data wirelessly to a receiver (10 Hz sampling rate)

5 Vibrational Analysis - Large Predicted modal frequencies Mode Theoretical Frequency (Hz) Theoretical Aliased and Folded Frequency (Hz) 1±537.97±62.03 2±1482.91±82.91 3±2907.45±92.55

6 Vibrational Analysis - Large Converting vibrational data to frequency domain

7 Vibrational Analysis - Large Frequency Response Functions

8 Vibrational Analysis - Large Comparison of theoretical and experimental modes Mode Theoretical Aliased and Folded (Hz) Experimental Modes (Hz) 1±62.03±54.8 2±82.91±68.37 3±92.55±79.64

9 Vibrational Analysis - Small Spectrum plot

10 IMU Analysis Most acceleration along z-axis Plotted z-axis acceleration vs. time

11 IMU Analysis Numerically integrated acceleration data to find velocity vs. time

12 IMU Analysis Numerically integrated velocity data to obtain position vs. time

13 IMU Analysis Also used pressure data to obtain a graph of position vs. time

14 Temperature & Pressure Analysis Found relationship between temperature and resistance of thermistors: Obtained constants during laboratory experiments

15 Temperature & Pressure Analysis Found relationship between height and pressure: Altitudes were calibrated as zero at the lake bed in Lucerne Valley

16 Conclusions Apogee for IMU rockets approximately 130 meters FRFs for large vibration rockets determine how rocket responds to input frequency Malfunction in the small vibration rocket’s R-DAS Determined altitude of rocket from pressure readings

17 Acknowledgements Professor Spjut Professor Cardenas Professors Wang, Yang, and Miraghaie E80 Lab Proctors Rocket Teams

18 References Student 1, Student 2, Student 3, Student 4. Section 2 Team 2 Notebook. Spring 2008. E80 The Next Generation Spring 2008. Harvey Mudd College Engineering.http://www.eng.hmc.edu/NewE80/DynamicBeamLab.html. Elastic Properties and Young’s Modulus for Some Materials. Engineering Toolbox. http://www.engineeringtoolbox.com/young-modulus-d_417.html. Polycarbonate. Answers.com: Technology. http://www.answers.com/topic/polycarbonate.

19 Questions?

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