Question
A violin string has a length of 30.0 cm and weighs 2.00 g, being fixed at both ends, allowing the formation of standing waves on
A violin string has a length of 30.0 cm and weighs 2.00 g, being fixed at both ends, allowing the formation of standing waves on the string. With this information, choose the correct alternative:
Choose an option: a. A given string mass element will oscillate transversely, like a simple harmonic oscillator, having the same frequency as the corresponding standing wave. b. Only one harmonic can exist at any given time on the string, as the combination of simultaneous harmonics violates the Superposition Principle. c. For a tension of 50 N applied to the string, the wave speed on the string will be less than 50 m/s. d. The linear mass density of the violin string will not alter normal frequencies of vibration. and. The tension applied to the violin string will not change the normal frequencies of vibration.
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Near-earth Laser Communications
Authors: Hamid Hemmati
2nd Edition
042953261X, 9780429532610
