You change the pitch of a guitar string by altering the tension. This is done by turning the 'machine head' which is the bit attached to the headstock (top of the guitar) where the strings attach. There should be 6 knobs sticking out. Turning these changes the picth of the string. Don't turn the string up too high or you'll break the neck.
well this all depends on what instrument. you could not figure this out by instruments in general. brass instruments you have to tighten and pull back your lips to get the pitch you are looking for and for loudness on brass you have to blow harder.( try tightening your abs, it works miracles!). on woodwinds you have to fix your embrochure( mouth positioning) and blow more air through you. now on string instruments you would have to place your fingers in the right place so your tone would not be sharp or flat. there are many ways to fix your loudness depending on what string instruments you are talking about
Different string instruments have different ways to make sound. Pianos hit the strings with a felt covered "Hammer", a Guitar creates a sound when the guitar player plucks a string. Either way, each string instrument makes sound by the vibration of the string.
The size of a string is related to the pitch it is supposed to produce when played 'open'. Strings meant to make high pitches tend to be short and thin. Strings meant to make low pitches tend to be long and thick. There is a tradeoff between three features that determines pitch of an open strings pitch:length: double the length of the vibrating part of a string and the pitch decreases by an octave. Halve the length of the vibrating portion of the string, and the pitch goes up by an octave. This is used to get more than one pitch out of a string (fingering).mass density: the amount of material and its mass per unit length. If you increase the diameter of a string while keeping the material the same, the pitch decreases. If you reduce the diameter (make it thinner), the pitch increases.tension: if you increase the tension on a string, the pitch increases. If you decrease the tension, the pitch decreases.In designing an instrument (and there are still people who design stringed instruments!), these three aspects must be balanced to produce a set of strings which, when fixed at a common length and tightened to roughly the same tension, can produce low to high pitches, spaced so that fingering will fill in the notes in between. Likewise, keyboard instruments like pianos, must have every string engineered to fit each semitone from bottom to top, because there is no fingering to 'fill in the gaps'.The result of this is that any instrument that has more than one string sounding more than one pitch will have different thickness strings. And, instruments which have pitches which are near, but different lengths (violin and viola, for instance) will either have different thicknesses if they are designed to have the same tension, or will have the same "weight" strings (same mass density and tension) but longer strings.There is one workaround: as the mass density of a string rises (thickness) we reach a point where the string becomes unplayable: too thick. Long before we get there, we can change the material being used. Often, nylon or silk strings will be wrapped with a metal (silver, copper, various alloys) to produce low-pitched strings with reasonable tensions and diameters. This is why, on a violin, the top string is usually a single strand of metal, and the lower strings are wrapped with metals. The steel 'core' of the lower strings gives integrity, while the aluminum or other metals used in the wrapping adds mass.
Um, I think you're mixing things up a bit. String instruments aren't blown. They are played with a bow (arco) or by plucking the strings (which is called pizzicato). The string instruments' pitches are affected by the ''tautness (how tightly they're pulled) or tightness of of the strings and where the fingers are placed to make the string more taut and make the pitch higher.'' Woodwind and Brass instruments are blown and as far as I know blowing harder just makes them louder. ''Wind instrument pitch is mostly changed by changing the length of the vibrations in the tube (i.e., in the bore.) This happens every time the player changes the fingering: opening holes shortens the bore, closing them lengthens it. There are also ways of changing the pitch by changing breath pressure or embouchure tension (lips).'' I borrowed some information from other people's answers in order to get this one. (Thank you to them). I hope this helps by the way.
The string instrument is an instrument that has strings on it.There are many different ways to play the strings and many different instruments, e.g the violin can be played with a bow or you can do pizzicato(which is plucking the strings.
You change the pitch of a guitar string by altering the tension. This is done by turning the 'machine head' which is the bit attached to the headstock (top of the guitar) where the strings attach. There should be 6 knobs sticking out. Turning these changes the picth of the string. Don't turn the string up too high or you'll break the neck.
Pulling out and pushing in the mouthpiece/head joint, and blowing faster or slower air through the instrument.
well this all depends on what instrument. you could not figure this out by instruments in general. brass instruments you have to tighten and pull back your lips to get the pitch you are looking for and for loudness on brass you have to blow harder.( try tightening your abs, it works miracles!). on woodwinds you have to fix your embrochure( mouth positioning) and blow more air through you. now on string instruments you would have to place your fingers in the right place so your tone would not be sharp or flat. there are many ways to fix your loudness depending on what string instruments you are talking about
Different string instruments have different ways to make sound. Pianos hit the strings with a felt covered "Hammer", a Guitar creates a sound when the guitar player plucks a string. Either way, each string instrument makes sound by the vibration of the string.
String comparison in Java features four ways. These ways are String comparison using equals method, equalsIgnoreCase method, CompareTo method, and CompareToIgnoreCase method.
The size of a string is related to the pitch it is supposed to produce when played 'open'. Strings meant to make high pitches tend to be short and thin. Strings meant to make low pitches tend to be long and thick. There is a tradeoff between three features that determines pitch of an open strings pitch:length: double the length of the vibrating part of a string and the pitch decreases by an octave. Halve the length of the vibrating portion of the string, and the pitch goes up by an octave. This is used to get more than one pitch out of a string (fingering).mass density: the amount of material and its mass per unit length. If you increase the diameter of a string while keeping the material the same, the pitch decreases. If you reduce the diameter (make it thinner), the pitch increases.tension: if you increase the tension on a string, the pitch increases. If you decrease the tension, the pitch decreases.In designing an instrument (and there are still people who design stringed instruments!), these three aspects must be balanced to produce a set of strings which, when fixed at a common length and tightened to roughly the same tension, can produce low to high pitches, spaced so that fingering will fill in the notes in between. Likewise, keyboard instruments like pianos, must have every string engineered to fit each semitone from bottom to top, because there is no fingering to 'fill in the gaps'.The result of this is that any instrument that has more than one string sounding more than one pitch will have different thickness strings. And, instruments which have pitches which are near, but different lengths (violin and viola, for instance) will either have different thicknesses if they are designed to have the same tension, or will have the same "weight" strings (same mass density and tension) but longer strings.There is one workaround: as the mass density of a string rises (thickness) we reach a point where the string becomes unplayable: too thick. Long before we get there, we can change the material being used. Often, nylon or silk strings will be wrapped with a metal (silver, copper, various alloys) to produce low-pitched strings with reasonable tensions and diameters. This is why, on a violin, the top string is usually a single strand of metal, and the lower strings are wrapped with metals. The steel 'core' of the lower strings gives integrity, while the aluminum or other metals used in the wrapping adds mass.
twist it and weave it
Um, I think you're mixing things up a bit. String instruments aren't blown. They are played with a bow (arco) or by plucking the strings (which is called pizzicato). The string instruments' pitches are affected by the ''tautness (how tightly they're pulled) or tightness of of the strings and where the fingers are placed to make the string more taut and make the pitch higher.'' Woodwind and Brass instruments are blown and as far as I know blowing harder just makes them louder. ''Wind instrument pitch is mostly changed by changing the length of the vibrations in the tube (i.e., in the bore.) This happens every time the player changes the fingering: opening holes shortens the bore, closing them lengthens it. There are also ways of changing the pitch by changing breath pressure or embouchure tension (lips).'' I borrowed some information from other people's answers in order to get this one. (Thank you to them). I hope this helps by the way.
To change the pitch of a shaking instrument, add or detract from whatever material inside it forms the noise as it is shaken. Less material will give a higher pitch. More material will give a lower pitch.
You can change the pitch of a vibrating object by altering its tension, such as tightening or loosening a guitar string. Another way is by changing the length of the vibrating portion of the object, like pressing down different frets on a guitar neck.
there are a couple of ways to slow a plane down. the first is to throttle down, this will help decrease speed. the second is pitch, if you increase the pitch, or raise the nose, you can decrease speed too. most aircraft have a pitch control wheel that raises or lowers the pitch (Nose) of the aircraft. By raising the pitch alittle and throttling down, you will slow the aircraft down really quick.