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An Introduction To The Physics Behind the Carillon

October 7, 2019. An Introduction To The Physics Behind the Carillon. Bell Shapes, Vibrations and Virtual Frequencies. The Carillon. An old and large musical instrument. Piano A440 Hz. Whistle A440 Hz. Eb3 bell of the Laura Spelman Rockefeller Memorial Carillon.

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An Introduction To The Physics Behind the Carillon

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  1. October 7, 2019 An Introduction To The Physics Behind the Carillon Bell Shapes, Vibrations and Virtual Frequencies

  2. The Carillon Anoldandlarge musical instrument

  3. Piano A440 Hz Whistle A440 Hz

  4. Eb3 bellofthe Laura Spelman Rockefeller Memorial Carillon Eb4 minorchord (Eb-Gb-Bb) + Eb3 + Eb5 playedon a piano

  5. The Shape of Bells Not a simple shape to analyze mathematically

  6. Experimental Tuning

  7. 2D Vibrations – Chladini’sPlates

  8. 2D Vibrations – Bells Longitudinal Modes

  9. 2D Vibrations – Bells ParalelModes

  10. The vibrationscorrespondingtothe Prime, m = 2

  11. m = 4, Group 2 (Major Third)

  12. The Strike note Mystery Eb3< <E3 But a perfectearhears it as a precise Eb3 (155.78Hz)

  13. Virtual Pitches

  14. Sub-harmonic Matching

  15. HetEinde

  16. Appendix A: Extra Images

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