Sound travels through a guitar string at 600 miles MS, making a sound wave in the air with a speed of 333 MS and one to two sentences explain how the wavelength and frequency of the wave in the string compare to the wavelength and frequency of the wave in the air
The wavelength of the wave in the string is much shorter than the wavelength of the wave in the air, while the frequency of the wave in the string is much higher than the frequency of the wave in the air. This is because the speed of sound in the string is much faster than the speed of sound in the air.
The wavelength of the sound wave in the guitar string will be shorter compared to the wavelength of the sound wave in the air because sound travels faster in the guitar string. The frequency of the sound wave in the guitar string will be the same as the frequency of the sound wave in the air because the frequency of a wave remains constant regardless of the medium through which it travels.
The wavelength of the sound wave in the guitar string will be shorter compared to the wavelength of the wave in the air. Additionally, the frequency of the wave in the guitar string will be higher compared to the frequency of the wave in the air.
