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Velocity V is same for both the ropes.(Identical mass per unit length,same tension).Ans=2.
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Two otherwise identical ropes differ in length L by a factor of 2. Under the same...
You have two ropes of the same length. The mass of the second rope is twice...
You have two ropes of the same length. The mass of the second rope is twice the mass of the first rope. The velocity of a wave in the second rope is __________ the velocity of a wave in the first rope. (Assume equal tensions.) a) the same as b) one over square root of 2 c) square root of 2 d) one half e) twice
Two ropes with different linear densities but the same length of L -1.58 m are joined together. T...
I couldn't figure out part 3 of this question.
Two ropes with different linear densities but the same length of L -1.58 m are joined together. The linear density of the first rope is 0.05670 kg/m. A force of F 1620 N is supplied to the ropes to keep them taut Figure 1 The frequency of a sinusoidal frequency generator is adjusted until two loops can be seen in the first rope and three loops in the second rope 2...
Two identical guitar strings are prepared such that they have the same length (0.67 m) and...
Two identical guitar strings are prepared such that they have the same length (0.67 m) and are under the same amount of tension. The first string is plucked at one location, primarily exciting the fifth harmonic. The other string is plucked in a different location, primarily exciting the fourth harmonic. The resulting sounds give rise to a beat frequency of 3.60 x 102 Hz What is the wave propagation speed on the guitar strings? m/s 241.2 wave propagation speed:
Two identical guitar strings are prepared such that they have the same length (0.65 m0.65 m)...
Two identical guitar strings are prepared such that they have the same length (0.65 m0.65 m) and are under the same amount of tension. The first string is plucked at one location, primarily exciting the first harmonic. The other string is plucked in a different location, primarily exciting the fourth harmonic. The resulting sounds give rise to a beat frequency of 378 Hz378 Hz. What is the wave propagation speed on the guitar strings? wave propagation speed: m/s
Two identical guitar strings are prepared such that they have the same length (2.30 m) and...
Two identical guitar strings are prepared such that they have the same length (2.30 m) and are under the same amount of tension. The first string is plucked at one location, primarily exciting the 5th harmonic. The other string is plucked in a different location, primarily exciting the 4th harmonic. The resulting sounds give rise to a beat frequency of 378 Hz. What is the wave propagation speed on the guitar strings?
Two identical guitar strings are prepared such that they have the same length ( 0.65 m...
Two identical guitar strings are prepared such that they have the same length ( 0.65 m ) and are under the same amount of tension. The first string is plucked at one location, primarily exciting the second harmonic. The other string is plucked in a different location, primarily exciting the third harmonic. The resulting sounds give rise to a beat frequency of 378 Hz . What is the wave propagation speed on the guitar strings?
Two identical masses are hung from two string with the same length, I. The mass of...
Two identical masses are hung from two string with the same length, I. The mass of the first string is twice of the second one. The ratio of the sound speed in string one to string two is: ? a) 0.5 ? n) are Sove uestion 2 (2.5 points) The speed of a standing wave in a 6 m long string with fixed end points is 192 m/s. The frequency, f, of this wave is 320 Hz. How many full...
There’s two boxes of equal mass: one pulled up by a rope at constant speed, and...
There’s two boxes of equal mass: one pulled up by a rope at constant speed, and another pulled up a ramp at a constant speed. They’re pulled up to the same height and there’s no friction on the ramp. Which statement is true? A) the magnitudes of force of tension in ropes are equal b) the work done by tension of rope in system 1 (the one being pulled up) is smaller than system 2 (the ramp one) C) the...
b. A physics 1021 student measures the speed of a wave in a string of length...
b. A physics 1021 student measures the speed of a wave in a string of length L. She then decreases the length of the string to one half the original length and repeats the experiment, keeping the string under the same tension. What happens to the speed of the wave in the string? Support your answer. [2 points]
Two identical boxes attached by ropes are pulled by a constant speed on a 30 degree...
Two identical boxes attached by ropes are pulled by a constant speed on a 30 degree inclined surface. The mass of each box is 100 kg and kinetic friction between the box and the surface is 0.1. What is the tension that exerting on the truck? This is the question in verbatim. To clarify, Box 1 is connected to Box 2 and Box 2 is connected to the truck.
I couldn't figure out part 3 of this question.
Two ropes with different linear densities but the same length of L -1.58 m are joined together. The linear density of the first rope is 0.05670 kg/m. A force of F 1620 N is supplied to the ropes to keep them taut Figure 1 The frequency of a sinusoidal frequency generator is adjusted until two loops can be seen in the first rope and three loops in the second rope 2...
Two identical guitar strings are prepared such that they have the same length (0.67 m) and are under the same amount of tension. The first string is plucked at one location, primarily exciting the fifth harmonic. The other string is plucked in a different location, primarily exciting the fourth harmonic. The resulting sounds give rise to a beat frequency of 3.60 x 102 Hz What is the wave propagation speed on the guitar strings? m/s 241.2 wave propagation speed:
Two identical masses are hung from two string with the same length, I. The mass of the first string is twice of the second one. The ratio of the sound speed in string one to string two is: ? a) 0.5 ? n) are Sove uestion 2 (2.5 points) The speed of a standing wave in a 6 m long string with fixed end points is 192 m/s. The frequency, f, of this wave is 320 Hz. How many full...
b. A physics 1021 student measures the speed of a wave in a string of length L. She then decreases the length of the string to one half the original length and repeats the experiment, keeping the string under the same tension. What happens to the speed of the wave in the string? Support your answer. [2 points]
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