A 50.0-cm-long string vibrates under a tension of 1.00 N. The figure shows five successive strobe images of the string. The lamp produces 5000 flashes per minute and observations reveal that he maximum displacement occurred in flashes 1 and 5, without other intermediate maximums. a) Calculate the wavelength, period, and frequency of the waves traveling on this string. b) In what normal (harmonic) mode is the string vibrating? And what is the speed of the waves traveling on the rope? c) Calculate the mass of the rope
A 50.0-cm-long string vibrates under a tension of 1.00 N. The figure shows five successive strobe images of the string. The lamp produces 5000 flashes per minute and observations reveal that he maximum displacement occurred in flashes 1 and 5, without other intermediate maximums. a) Calculate the wavelength, period, and frequency of the waves traveling on this string. b) In what normal (harmonic) mode is the string vibrating? And what is the speed of the waves traveling on the rope? c) Calculate the mass of the rope
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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A 50.0-cm-long string vibrates under a tension of 1.00 N. The figure shows five successive strobe images of the string. The lamp produces 5000 flashes per minute and observations reveal that he maximum displacement occurred in flashes 1 and 5, without other intermediate maximums.
a) Calculate the wavelength, period, and frequency of the waves traveling on this string.
b) In what normal (harmonic) mode is the string vibrating? And what is the speed of the waves traveling on the rope?
c) Calculate the mass of the rope
Transcribed Image Text:2
K
3
S
3
5
1.5 cm
1.5 cm
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