Picture of Instrument:
I made a chime instrument as you see on the left it is a simple and aesthetic look. I first built the base [the green wood] I used four pieces of 1 inch by 20 inches. I drilled them together to create the box like shape you see. Next I screwed in eight eye brass hooks to the top to create a hook for the chimes to hang off of. I cut eight pipes according to size. [sizes are down below] Which then I thread through string that were cut at eight inches and attached to the hooks. |
Interval
Unison [1] Second Major [2] Third Major [3] Fourth [4] Fifth [5] Sixth Major [6] Seventh Major[7] Octave [8] |
Notes
D7 E7 F7 G7 A8 B8 C8 D8 |
Fundamental Scale
1.0000 0.9428 0.8944 0.8660 0.8165 0.7746 0.7303 0.7071 |
Frequency
2349.32 Hz 2637.02 Hz 2793.83 Hz 3135.96 Hz 3520.00 Hz 3951.07 Hz 4186.01 Hz 4698.63 Hz |
Chime Length
21.5 cm 20.3 cm 19.2 cm 18.6 cm 17.5 cm 16.6 cm 15.7 cm 15.2 cm |
Wave Length
14.69 13.08 12.35 11.00 9.80 8.73 8.24 7.34 |
Frequency
Frequency is the rate at which something occurs or is repeated over a particular period of time or in a given sample. |
Wavelength
Wavelength is the distance between successive crests of a wave, especially points in a sound wave or electromagnetic wave. |
Wave Speed
Wave speed is the distance the wave travels in a given amount of time, such as the number of meters it travels per second. |
Amplitude
Amplitude is the maximum extent of a vibration or oscillation, measured from the position of equilibrium. |
Transverse Wave
A transverse wave is a wave vibrating at right angles to the direction of its propagation. |
Longitudinal Wave
A longitudinal wave is a wave vibrating in the direction of propagation. |
Electromagnetic Spectrum
Electromagnetic Spectrum is the range of wavelengths or frequencies over which electromagnetic radiation extends. |
Natural Frequency
Natural frequency is the frequency at which a system oscillates when not subjected to a continuous or repeated external force. |
~verse 1 (sound waves)
Vibrations are the Cause of all sound waves (though) It needs to travel Through types of media More rigid matter Makes sound move faster And forced vibration Makes the sound amplified ~chorus There can be light waves There can be sound waves It all depends on wave speed, wavelength, and frequency |
~verse 2 (light waves)
Refraction bends waves Which alters wave speed As it transitions Through types of media (and) Reflection bounces Best on smooth levels Rays always follow The law of reflection ~bridge Constructive Interference and the Deconstructive create Waves’ increase or decrease. Also the Doppler effect Changes pitch and frequency |
Strengths I would feel confident saying our teams biggest strength was communication and cooperation. We would help each other with anything we needed confirmation on, along with keeping each other in the loop of any changes.
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Challenges I could not think of a challenge for this group, we worked greatly together. I just think organization would of been a huge game changer, I think it would of helped us just a little bit more.
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