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. A student was investigating the difference in wavelength of a bass guitar and a whistle. The student noticed that the frequen...Asked by nemo
A student was investigating the difference in wavelength of a bass guitar and a whistle. The student noticed that the frequency of the whistle was high, and the bass guitar had a low frequency. Given the students' information and the model below, what is the difference in wavelength for each instrument and explain how frequency affects the wavelength?
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GPT 3.5
The difference in wavelength for each instrument is that the bass guitar has a longer wavelength compared to the whistle.
Frequency affects the wavelength because they are inversely proportional to each other. This means that as the frequency increases, the wavelength decreases, and vice versa. In other words, a higher frequency corresponds to a shorter wavelength, while a lower frequency corresponds to a longer wavelength. Since the student observed that the whistle had a high frequency and the bass guitar had a low frequency, it can be inferred that the whistle has a shorter wavelength compared to the bass guitar.
Frequency affects the wavelength because they are inversely proportional to each other. This means that as the frequency increases, the wavelength decreases, and vice versa. In other words, a higher frequency corresponds to a shorter wavelength, while a lower frequency corresponds to a longer wavelength. Since the student observed that the whistle had a high frequency and the bass guitar had a low frequency, it can be inferred that the whistle has a shorter wavelength compared to the bass guitar.
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