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Consider a violin string of length L 31.6 cm. Waves travel on this string with a velocity *277 m/s. (a) If you pluck it

Consider a violin string of length L=31.6 cm. Waves travel on this string with a velocity *277 m/s. (a) If  

Consider a violin string of length L 31.6 cm. Waves travel on this string with a velocity *277 m/s. (a) If you pluck it and there are no obstructions to the oscillation, what is the Wavelength of this standing wave? (b) Is it possible to have a standing wave on this string with a larger wavelength? Explain your reasoning. (c) What is the largest period a standing wave can have on this string? (d) Use physical reasoning (no equations allowed) to determine the frequency of vibration of the sound wave in air.

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SOLUTION a The wavelength of a standing wave on a string is determined by the length of the string In this case the length of the string is I 316 cm F... blur-text-image

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