[Answer] A flute plays a note with a frequency of 266 Hz. What is the speed of sound if the wavelength is 1.3 m? Coulomb's Law Pretest

Answer: 346 m/s

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A flute plays a note with a frequency of 266 Hz. What is the speed of sound if the wavelength is 1.3 m? Coulomb's Law Pretest A flute plays a note with a frequency of 266 Hz . What is the speed of sound if the wavelength is 1.3 m ? 346 m /s. The speed of sound in ice water and steam is shown. ... Coulomb's Law Pretest . 16 terms. erb019. Subjects. Arts and Humanities. Languages. Math. … Answer : Speed v = 345.8 m /s. Explanation : Given that Frequency of the flute which plays a note is 266 Hz . Wavelength λ = 1.3 m . The speed of a wave is the product of the frequency and the wavelength of the wave. The speed of the sound (s) is determined by multiplying the wavelength (λ) by the given frequency ( f ). s = (λ)(f) s = (1.3 m)(266/s) = 345.8 m/s Thus the speed of sound is approximately equal to 245.8 m/s. A flute plays a note with a frequency of 266 Hz . What is the speed of sound if the wavelength is 1.3 m ? 346 m /s. A wave has a wavelength of 4.9 m and a velocity of 9.2 m /s. The medium through which this wave is traveling is then heated to a greater temperature. ... the law that states that the angle of incidence is equal to the angle of ... A flute plays a note with a frequency of 266Hz. What is the speed of sound if the wavelength is 1.3m? 102 m /a 205m/a 346m/s 692m/s - 3946429 Start studying Waves and Sound . Learn vocabulary terms and more with flashcards games a...

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