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high note has high frequency (cycles per second) . Low note has low frequency. The sound originated by a high frequency note oscillates more times per second, while a low frequency note oscillates less times per second.
The frequency of a sound wave will determine the pitch (or note).
frequency and pitch
The rate of vibration is called the frequency.
Avibration in a string is a wave. Usually a vibrating string produces a sound whose frequency in most cases is constant. Therefore, since frequency characterizes the pitch, the sound produced is a constant note. Vibrating strings are the basis of any string instrument like guitar, cello, or piano. The speed of propagation of a wave in a string is proportional to the square root of the tension of the string and inversely proportional to the square root of the linear mass of the string.
Treble or Bass, depending on the variation of frequency from the original note.
Because the strings are longer and thicker which makes the frequency lower, which makes the note lower.
It doubles three times. Every time you go up an octave, the frequency doubles.
A stringed instrument creates notes (sounds at certain frequencies) because the string vibrate at a particular frequency. The frequency at which the string vibrates depends on several factors: the mass of the string material; the tension of the string, and the length of the string. The following result in lower frequencies: more mass (the lower strings are thicker and therefore have more mass), less tension (the lower strings are tightened up a little less than the higher strings), and more string length. The violinist adjusts the tension of each string when tuning the instrument. To play different notes, there are 4 strings (lowest is G, then D, A and highest is E). So by pressing his fingers on the string to shorten the length, a higher frequency note is produced. When the violinist gets to half the distance of the original length, the frequency is doubled, and the note is one octave above the natural string note. At this point, the note letter is the same as the original note, one octave below.
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
You draw the bow across the strings. This causes the strings to vibrate - and the soundbox amplifies the note so you can hear it.
Changing notes is done by the playing of it via the fretboard. The frequency is based on the pickups and often guitars with several types have a switch to change the different ranges. Also plucking the strings closer and further away from the bridge while playing certain notes will result in high resonance and can be used to create commonly used effects such as a "squeal".
The purpose of wrapping stringed instruments comes from the physical properties of waves traveling through a string. Two formulas can be employed to briefly describe waves and the wrapping of strings.(wave speed) =sqrt (frequency / mass per unit length)and(wave speed = wavelength * frequency)If you notice a guitar for example, the lower base note strings are wrapped and the higher frequency strings are not wrapped. In order to get the lower base note string to vibrate at the lower frequency you must increase the mass per unit length of the string. However, steel being the material it is does not remain flexible when you increase its thickness per unit length (mass per unit length). So the steel is wrapped so that you can increase the thickness of the string without increasing the rigidity of the string. As a result, it can vibrate freely and be a welcoming medium to sustain your desired bass frequency.-G
high note has high frequency (cycles per second) . Low note has low frequency. The sound originated by a high frequency note oscillates more times per second, while a low frequency note oscillates less times per second.
That is correct. 262 Hz is the frequency of the note "middle C" on a piano keyboard, while 880 Hz is the frequency of the note A one octave above the note A above middle C on a piano keyboard.
Pitch represents the perceived fundamental frequency of a sound. It is one of the three major auditory attributes of sounds along with loudness and timbre.
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