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1054 Hz
- What is the frequency of the piano string? 1054 Hz 1056 Hz 1058 Hz Either A or C Either A, B or C
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The following equation gives the frequency f (Hz) of the n th key on the idealized standard piano with the 49th key tuned to A 4 at 440 Hz: f ( n ) = ( 2 12 ) n − 49 × 440 Hz = 2 n − 49 12 × 440 Hz {\displaystyle f(n)=\left({\sqrt[{12}]{2}}\,\right)^{n-49}\times 440\,{\text{Hz}}\,=2^{\frac {n-49}{12}}\times 440\,{\text{Hz}}\,}
May 6, 2014 · 7 Answers. Sorted by: 10. Yes, you are correct, the "true" frequencies will differ from piano to piano. In addition to the answers already given here, I would like to add more information regarding inharmonicity. The amount of offset or "stretched tuning" for the strings of an acoustic piano will vary with the size and type of the piano.
- Yes, you are correct, the "true" frequencies will differ from piano to piano. In addition to the answers already given here, I would like to add mo...
- The figure in the Wikipedia article tells you what you are asking, if you're willing to tabulate the deviations by reading the green line. The ve...
- Are you asking this question because you're writing a synthesizer? That kind of detail will help the answer that you get... If you're working on a...
- The question is actually self-defeating. The problem is that the reason a piano gets stretched tuning in the first place is disharmonicity, meanin...
- As the question itself admits, there is no "true" mathematical answer to the question since the best tuning varies from piano to piano. But one ca...
- Just to expand on a point I think is important, and the reason I think learning frequencies is semi-useless: As supercat said in his comment @Dav...
- This chart displays the frequency of all notes: As a reference, 60 midi number = middle C on the piano. A piano has seperate strings for each note...
Piano key frequencies 3 36 g♯/a♭ G♯3/A♭3 207.652 35 g G3 195.998 G G G 34 f♯/g♭ F♯3/G♭3 184.997 33 f F3 174.614 32 e E3 164.814 31 d♯/e♭ D♯3/E♭3 155.563 30 d D3 146.832 D D 29 c♯/d♭ C♯3/D♭3 138.591 28 c small octave C3 Low C 130.813 C 27 B B2 123.471 26 A♯/B♭ A♯2/B♭2 116.541 25 A A2 110.000 A
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Jan 9, 2020 · Table of Musical Notes and Their Frequencies and Wavelengths. A number of calculations useful to builders of stringed musical instruments require the frequency or wavelength of a note as input data. The following table presents the frequencies of all notes in ten octaves to a thousandth of a hertz. Octaves are presented in the Scientific Pitch ...
The piano has 88 keys which span the frequency range 27.5 Hz (A0) to 4186 Hz (C8). The strings are sounded by hammer mechanisms which are activated by the keys. Held in a heavy cast iron frame, the strings pass over a bridge to a pin block by which the strings are tuned.
Aug 31, 2018 · 3 Answers. Sorted by: 10. The frequency of a vibrating string is primarily based on three factors: The sounding length (longer is lower, shorter is higher) The tension on the string (more tension is higher, less is lower) The mass of the string, normally based on a uniform density per unit length (higher mass is lower, lower mass is higher)
For the A note in the exact center of the compass, the string will vibrate at a frequency of 440 hertz, i.e., 440 times per second. In the treble section of the compass, resonating segments at the front and back of the string are called the front duplex and back duplex respectively.
