in A=440 tuning, "E" (bottom string on a guitar and E2 on a piano) is 82.40, give or take 0.5 depending on the style and accuracy of the musical tuning.
There are other notes called "E". The lowest E on the piano, E1 or EE, has a theoretical frequency of 41.20 Hz (cycles per second) and the highest, E7 or e'''', is 2637.02 Hz. The other E's are: E3 or e; 164.82 Hz, E4 or e' (top string on a guitar); 329.63 Hz, E5 or e''; 659.26 Hz, and E6 or e'''; 1318.51 Hz.
..its pitch.
discrete
When one musical note has twice the frequency of another note, the notes are an octave apart. In the context of music, this means that the higher note sounds like a more intense version of the lower note, and they share a strong harmonic relationship. For example, if the lower note is A at 440 Hz, the note an octave above it would be A at 880 Hz. This relationship is fundamental to musical scales and harmony.
A musical note implies its pitch. In other words it denotes which note should be played on your instrument. There are 7 music notes: A, B, C, D, E, F and G.
A musical note implies its pitch. In other words it denotes which note should be played on your instrument. There are 7 music notes: A, B, C, D, E, F and G.
..its pitch.
The frequency of the middle note in a musical scale is typically around 440 Hz, which is known as the A above middle C.
The frequency of a sound wave increases when the pitch of a musical note rises.
discrete
To calculate the wavelength of the musical note, you can use the formula: wavelength = speed of sound / frequency. Plugging in the values gives: wavelength = 345 m/s / 26.6 Hz = 12.97 meters. So, the wavelength of the musical note is approximately 12.97 meters.
The quality of a musical note depends on the harmonic content, which is determined by the instrument or sound source. The pitch of a musical note depends on the frequency of the vibrations produced by the sound source.
When one musical note has twice the frequency of another note, the notes are an octave apart. In the context of music, this means that the higher note sounds like a more intense version of the lower note, and they share a strong harmonic relationship. For example, if the lower note is A at 440 Hz, the note an octave above it would be A at 880 Hz. This relationship is fundamental to musical scales and harmony.
A change in frequency is a change in pitch, in terms of sound. try to picture a sine wave in your mind. When you lower the frequency of the wave, it stretches the sine wave out (Which is how the pitch of the sound is lowered. I'm assume that you're question is about Audio.) For example, if you had a sound wave at 440Hz (And is aslo the musical note "A" on the center octave), and you changed its frequency to 329.63Hz, it would then sound lower in pitch (The musical note of "E") I hope that helps ;) ~Mitch
E
Octave
An octave in music is a musical interval between two notes where the higher note has a frequency that is double that of the lower note. This means that the pitch of the higher note is higher than the lower note, but they still sound harmonious together.
An octave in music is a musical interval between two notes where the higher note has a frequency exactly double that of the lower note.