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Unformatted text preview: homework 12 BROWNING, ADAM Due: Nov 21 2007, 1:00 am 1 Question 1, chap 16, sect 2. part 1 of 1 10 points What is the frequency corresponding to a period of 0 . 71 s? Correct answer: 1 . 40845 Hz (tolerance 1 %). Explanation: Let : t = 0 . 71 s . f = 1 t = 1 . 71 s = 1 . 40845 Hz . Question 2, chap 16, sect 2. part 1 of 1 10 points A harmonic wave is traveling along a rope. The oscillator that generates the wave com pletes 41.0 vibrations in 29.9 s. A given crest of the wave travels 364 cm along the rope in a time period of 13.7 s. What is the wavelength? Correct answer: 0 . 193762 m (tolerance 1 %). Explanation: Basic Concepts: v = f f = number of vibrations t x = v t Given: n = 41 . 0 vibrations t = 29 . 9 s x = 364 cm t = 13 . 7 s Solution: = v f = x t n t = xt n t = (364 cm)(29 . 9 s) 41 (13 . 7 s) 1 m 100 cm = 0 . 193762 m Question 3, chap 16, sect 2. part 1 of 2 10 points Tension is maintained in a string as in the figure. The observed wave speed is 22 m / s when the suspended mass is 2 . 7 kg . The acceleration of gravity is 9 . 8 m / s 2 . 2 . 7 kg What is the mass per unit length of the string? Correct answer: 0 . 0546694 kg / m (tolerance 1 %). Explanation: Let : v = 22 m / s and m = 2 . 7 kg . The tension in the string is F = mg and its velocity is v = radicalBigg F , and = F v 2 = mg v 2 = (2 . 7 kg) ( 9 . 8 m / s 2 ) (22 m / s) 2 = . 0546694 kg / m . homework 12 BROWNING, ADAM Due: Nov 21 2007, 1:00 am 2 Question 4, chap 16, sect 2. part 2 of 2 10 points What is the wave speed when the suspended mass is 2 . 4 kg? Correct answer: 20 . 7418 m / s (tolerance 1 %). Explanation: Let : m = 2 . 4 kg . The velocity is v = radicalBigg F = radicalbigg mg = radicalBigg (2 . 4 kg) (9 . 8 m / s 2 ) . 0546694 kg / m = 20 . 7418 m / s . Question 5, chap 16, sect 2. part 1 of 1 10 points A light string of mass 7 . 9 g and length 3 . 22 m has its ends tied to two walls that are separated by the distance 2 . 4 m. Two objects, each of mass 1 . 23 kg, are suspended from the string as in the figure. The acceleration of gravity is 9 . 8 m / s 2 . 1 . 23 kg 1 . 23 kg . 8 5 m 1 . 61 m . 8 5 m 2 . 4 m A B If a wave pulse is sent from point A , how long does it take to travel to point B ? Correct answer: 30 . 6083 ms (tolerance 1 %). Explanation: Given : m = 7 . 9 g = 0 . 0079 kg , M = 1 . 23 kg , L = 3 . 22 m , L 2 = 1 . 61 m , L 4 = 0 . 805 m , and D = 2 . 4 m . M M L 4 L 2 L 4 D A B d d Observing the lengths, 2 d + L 2 = D 4 d + L = 2 D d = 2 D L 4 and cos = d L 4 = 4 d L = 2 D L L , so = cos 1 bracketleftbigg 2 D L 1 bracketrightbigg = cos 1 bracketleftbigg 2 (2 . 4 m) 3 . 22 m 1 bracketrightbigg = 60 . 6145 ....
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 Fall '08
 Turner
 Physics, Work

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