There is a shorter colume of vibrating air in these instruments.
so the shoter instruments will make the pitch higher because the vibration of air
Yes, the shorter the wavelength of sound, the higher the pitch.
The shorter the string - the higher the pitch.
If the wavelength gets shorter, you will hear a higher frequency sound. This change in frequency can lead to the perception of a higher pitch in the sound.
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.
Shorter tubes produce higher pitch sounds because they have a shorter length for the sound wave to travel through, resulting in a higher frequency of vibrations. This faster vibration rate creates a higher pitch sound compared to longer tubes which have a lower frequency.
Smaller instruments produce higher frequencies. Compare, for example, the violin, the viola, and the bass. All have the same shape, but increasing size, with correspondingly lower pitch.
The shorter you make a string, the higher the pitch will be. You can notice that as someone plays the guitar, and they slide their fingers toward the body, the pitch gets higher. If you loosen a peg on a stringed instrument to elongate the string, the pitch drops because the frequency (how many vibrations per second) decreases.
High pitch sounds are produced by vibrations that occur at a fast frequency, typically with shorter wavelengths. This results in the rapid compression and rarefaction of air molecules, creating a sound with higher frequency and therefore a higher pitch. In musical instruments, adjusting the tension or length of a vibrating element, such as a string or column of air, can also affect the pitch produced.
A higher pitched sound can result from vibrations with a higher frequency, which typically come from shorter wavelengths or tighter vibrations. Factors like increased tension, higher pressure, or shorter length of the vibrating medium can also contribute to a higher pitch.
A shorter length, higher tension, or greater density of the material in a fixed medium can contribute to a higher pitch sound. Each of these factors affects the frequency at which the medium vibrates and produces sound waves with higher pitch.
The shorter the pipe the higher the pitch. Conversely the longer the pipe the lower the pitch.