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Two strings, one with a low mass density and one with a high linear density are spliced together. The higher density end is tied to a lab post and a student holds the free end of the low-mass density string. The student gives the string a flip and sends a pulse down the strings. If the tension is the same in both strings, does the pulse travel at the same wave velocity in both strings? If not, where does it travel faster, in the low density string or the high density string?

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Problems

Transverse waves are sent along a 5.00-m-long string with a speed of 30.00 m/s. The string is under a tension of 10.00 N. What is the mass of the string?

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A copper wire has a density of ρ = 8920 kg/m 3 , a radius of 1.20 mm, and a length L . The wire is held under a tension of 10.00 N. Transverse waves are sent down the wire. (a) What is the linear mass density of the wire? (b) What is the speed of the waves through the wire?

a. μ = 0.040 kg/m; b. v = 15.75 m/s

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A piano wire has a linear mass density of μ = 4.95 × 10 −3 kg/m . Under what tension must the string be kept to produce waves with a wave speed of 500.00 m/s?

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A string with a linear mass density of μ = 0.0060 kg/m is tied to the ceiling. A 20-kg mass is tied to the free end of the string. The string is plucked, sending a pulse down the string. Estimate the speed of the pulse as it moves down the string.

v = 180 m/s

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A cord has a linear mass density of μ = 0.0075 kg/m and a length of three meters. The cord is plucked and it takes 0.20 s for the pulse to reach the end of the string. What is the tension of the string?

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A string is 3.00 m long with a mass of 5.00 g. The string is held taut with a tension of 500.00 N applied to the string. A pulse is sent down the string. How long does it take the pulse to travel the 3.00 m of the string?

v = 547.723 m/s , Δ t = 5.48 ms

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A sound wave travels through a column of nitrogen at STP. Assuming a density of ρ = 1.25 kg/m 3 and a bulk modulus of β = 1.42 × 10 5 Pa , what is the approximate speed of the sound wave?

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What is the approximate speed of sound traveling through air at a temperature of T = 28 ° C ?

v s = 347.56 m/s

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Transverse waves travel through a string where the tension equals 7.00 N with a speed of 20.00 m/s. What tension would be required for a wave speed of 25.00 m/s?

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Two strings are attached between two poles separated by a distance of 2.00 m as shown below, both under the same tension of 600.00 N. String 1 has a linear density of μ 1 = 0.0025 kg/m and string 2 has a linear mass density of μ 2 = 0.0035 kg/m . Transverse wave pulses are generated simultaneously at opposite ends of the strings. How much time passes before the pulses pass one another?

Figure shows two strings attached between two poles. A wave propagates from left to right in the top string with velocity v subscript w1. A wave propagates from right to left in the bottom string with velocity v subscript w2.

v 1 t + v 2 t = 2.00 m , t = 1.69 ms

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Two strings are attached between two poles separated by a distance of 2.00 meters as shown in the preceding figure, both strings have a linear density of μ 1 = 0.0025 kg/m , the tension in string 1 is 600.00 N and the tension in string 2 is 700.00 N. Transverse wave pulses are generated simultaneously at opposite ends of the strings. How much time passes before the pulses pass one another?

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The note E 4 is played on a piano and has a frequency of f = 393.88 . If the linear mass density of this string of the piano is μ = 0.012 kg/m and the string is under a tension of 1000.00 N, what is the speed of the wave on the string and the wavelength of the wave?

v = 288.68 m/s , λ = 0.73 m

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Two transverse waves travel through a taut string. The speed of each wave is v = 30.00 m/s . A plot of the vertical position as a function of the horizontal position is shown below for the time t = 0.00 s . (a) What is the wavelength of each wave? (b) What is the frequency of each wave? (c) What is the maximum vertical speed of each string?

Two transverse waves are shown on a graph. The first one is labeled y1 parentheses x, t. Its y value varies from -3 m to 3 m. It has crests at x equal to 5 m and 15 m. The second wave is labeled y2 parentheses x, t. Its y value varies from -2 to 2. It has crests at x equal to 3 m, 9 m and 15 m.
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A sinusoidal wave travels down a taut, horizontal string with a linear mass density of μ = 0.060 kg/m . The maximum vertical speed of the wave is v y max = 0.30 cm/s . The wave is modeled with the wave equation y ( x , t ) = A sin ( 6.00 m −1 x 24.00 s −1 t ) . (a) What is the amplitude of the wave? (b) What is the tension in the string?

a. A = 0.0125 cm; b. F T = 0.96 N

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The speed of a transverse wave on a string is v = 60.00 m/s and the tension in the string is F T = 100.00 N . What must the tension be to increase the speed of the wave to v = 120.00 m/s?

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Source:  OpenStax, University physics volume 1. OpenStax CNX. Sep 19, 2016 Download for free at http://cnx.org/content/col12031/1.5
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