The pitch is determined by by the frequency in which the string is swinging, which, in turn, is determined by the speed with which a wave can travel through the string. The higher the tension in the string is, the easier it is for a wave to travel through it, and if the speed of the wave increase, so will the frequency, and by default the pitch of the note. And vice versa.
If I remember my physics correctly :)
The tension of the string. Less tension = lower pitch. This can be achieved by loosening the string or lengthening the string.
To raise the pitch (frequency), put more tension on one end of the string. To lower the pitch, put less tension on one end of the string.For instance, on a guitar, tighten the string for a higher pitch. Loosen the string for a lower pitch.Additionally, if you have a guitar string already mounted and tensioned. You may place your finger in the middle of the string, and the pitch will go up one octave. Each time you halve a tensioned string, it produces a pitch one octave higher.
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.
Well, the sound of a stringed instrument comes from the vibration of the string. The pitch/note of the string is determined by how tight the string is stretched (a loose string produces a low note, a tight string makes a high note). When you put your finger on the string and press it down on the fret, your adding tension on the string and raising the pitch (making it higher). As you go from fret to fret, if you go to lower frets down the neck (t'ward the base) you get a higher sound. As you move to a higher fret (t'wards the end of the neck) you get a lower sound.
the low E would make the most sense its tuned with the least amount of tension and when you give it a good strum it can go on longer than any others because its hit with more pick than any other in the set even if you where to say "Remove them all" but one string and try this method.
The tension of the string. Less tension = lower pitch. This can be achieved by loosening the string or lengthening the string.
"Pressure" is not what causes strings to produce sound. It's "tension" which does that. Adjusting the tuners either increases or decreases the tension, thus altering the audible pitch. Bending the strings also increases the tension. The sound is due to the vibration of the strings. Greater tension causes a shorter, higher frequency wavelength or amplitude which produces a higher pitch. Lesser tension causes a longer, lower frequency wavelength which produces a lower pitch. Depressing the strings onto the fingerboard effectively shortens the length of the string. The more a string is shortened, the shorter its vibrational wavelength and the higher its frequency will become. The location along the fingerboard at which the string is depressed serves the same function as does the nut when a open string is sounded.
To raise the pitch (frequency), put more tension on one end of the string. To lower the pitch, put less tension on one end of the string.For instance, on a guitar, tighten the string for a higher pitch. Loosen the string for a lower pitch.Additionally, if you have a guitar string already mounted and tensioned. You may place your finger in the middle of the string, and the pitch will go up one octave. Each time you halve a tensioned string, it produces a pitch one octave higher.
To raise the pitch (frequency), put more tension on one end of the string. To lower the pitch, put less tension on one end of the string. For instance, on a guitar, tighten the string for a higher pitch. Loosen the string for a lower pitch. Additionally, if you have a guitar string already mounted and tensioned. You may place your finger in the middle of the string, and the pitch will go up one octave. Each time you halve a tensioned string, it produces a pitch one octave higher.
Large and bulky knots. On stringed musical instruments, thick strings produce lower frequencies, and can complicate tuning, because they require greater tension than a thinner string.
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.
The higher the tension the more power, the lower the tension the more control of the ball you have, therefore manufactures normally string it in the middle of your tension range (tension range can be found on your racket)
Well, the sound of a stringed instrument comes from the vibration of the string. The pitch/note of the string is determined by how tight the string is stretched (a loose string produces a low note, a tight string makes a high note). When you put your finger on the string and press it down on the fret, your adding tension on the string and raising the pitch (making it higher). As you go from fret to fret, if you go to lower frets down the neck (t'ward the base) you get a higher sound. As you move to a higher fret (t'wards the end of the neck) you get a lower sound.
The strings vibrate by either using a bow (with a friction agent called Rosin on it ) or by pizzicato (plucking the strings with a finger). This vibration passes through the bridge and is then amplified by the belly and the back of the instrument via a sound post (viewed inside by looking through the "F" holes in the belly). The tone and volume are greatly affected by the quality of the wood and 'set-up' of the strings and bridge.
the low E would make the most sense its tuned with the least amount of tension and when you give it a good strum it can go on longer than any others because its hit with more pick than any other in the set even if you where to say "Remove them all" but one string and try this method.
It gives a deeper and "Bassier" tonal quality. Also the strings are longer because of the lower pitch of the notes that are generally played. A pitch of a string depends not only on the length but also the tension. A loose short string doesn't sound as good as a long tighter string.
A guitar tremolo works but altering the tension of the strings along the guitar. A tremolo on a guitar consists of a handle and when pressed or pulled it moves the strings with it. When you push a tremolo arm down it alters the pitch of the struck note to a lower sound by making the string slacker. When pulled it makes the strings tighter and therefore makes the struck note higher. A common example of a tremolo is a Bigsby unit.