A transposing instrument is a musical instrument whose music is recorded in staff notation at a pitch different from the pitch that actually sounds (concert pitch) a written middle c on a transposing instrument produces a pitch other than middle c, and that pitch identifies the interval of transposition when describing the instrument. John, from the isle of wight, wrote to me this evening with this rather excellent question: as all sound is simply vibrations in the air, and therefore musical notes are the same, then why do we hear the same note as a different sound when played on different instruments why does an a sharp played on a piano sound different from an a sharp played on a trumpet. Learn the difference between violin and fiddle [email protected] march 1, violin or fiddle i usually answer, “they’re really the same instrument, just different kinds of music” you know: violin is for classical and jazz while fiddle is for folk, country, and bluegrass learn the difference between violin and fiddle.
Sometimes, they play the head (or a portion of the head) in harmony that is, they each play different notes that harmonize with each other (they play different notes that sound good with each other at the exact same time) the players decide when to play in unison and when to play in harmony. Timbre distinguishes different types of sound production, such as choir voices and musical instruments, such as string instruments, wind instruments, and percussion instruments it also enables listeners to distinguish different instruments in the same category (eg an oboe and a clarinet . There are instrumental effects, too - a flute can sound like two different instruments depending on whether it is playing low or high notes the composer needs to understand where the transition. The simple answer: the pitch of a c-note will not vary on different instrumentswhat makes the note sound different on each instrument is something called timbre or the tonal quality if a guitar plays a c-note and then a violin plays a c-note, it will have the same pitch but it will have a different timbre.
That way, when you say play a c, every instrument is playing the same note (octaves apart perhaps, but that's still the same note, if not the same exact pitch) and you craft the instruments specifically with this in mind. Best answer: well, in terms of them vibrating at the same rate for the same note, that's sort of true a-440 is a-440, but it's not that simple when a flute plays a given note, it clearly sounds different from when a violin plays the same note, and the reason for that has to do with several interacting factors. Sometimes there might be two different instruments such as the guitar and piano, both playing the same note in the same octave at the same time each instrument has a unique sound that it makes in comparison to all other instruments. Technically speaking two notes with the same pitch have the same frequency as the fundamental however this does not explain why two notes of the same frequency also called unisons, sound different on strings of different diameters or lengths or both.
Sound waves and ocean waves may be made of different things, but they work the same way changing the amplitude of a sound wave changes its loudness or intensity if you are playing a guitar, the vibrations of the strings force nearby air molecules to compress and expand. A beginning violin player sounds very different than a violin player in a symphony, even if they are playing the same note a violin also sounds different than a flute playing the same pitch this is because they have a different tone, or sound quality. Two notes of the same pitch and loudness, played from different instruments do not sound the same because the waveforms are different and therefore differ in quality or tone the same note from different instruments has different qualities because the sounds from instruments are never pure notes, ie of one frequency, the only exception being.
So why do different instruments have different timbres the difference is the relative loudness of all the different harmonics compared to each other when a clarinet plays a note, perhaps the odd-numbered harmonics are strongest when a french horn plays the same note, perhaps the fifth and tenth harmonics are the strongest. Where math meets music ever wonder why some note combinations sound pleasing to our ears, while others make us cringe to understand the answer to this question, you’ll first need to understand the wave patterns created by a musical instrument when you pluck a string on a guitar, it vibrates back and forth. Research the instrument and explain how it works in terms of sound production and resonance describe how a musician can vary the pitch and loudness of the notes explain why different types of musical instruments sound different, even though they play the same notes. Each different instrument makes a different sound because the strings vibrate dif ferently creating different harmonics also, the piano string is struck by a hammer and the violin string is played by drawing a bow across it, causing it to vibrate.
That is why, even though all the strings on a guitar are the same length, they all sound a different note string instruments can be plucked, bowed, or in the case of the piano, struck bowing allows very long, sustained notes with interesting dynamics. Now, why do different instruments have different sounds, despite the same frequency well, because the pure frequency is not everything, the sound is not 1 single wave instruments will produce a multitude of different waves, with different amplitudes, and also having intermediate frequencies. If three musicians using instruments with the different tunings all look at and play the same note on a staff, the tones created will sound different, because the musicians won't be playing tones.