9. If two successive harmonics of a vibrating string are 240 Hz and 320 Hz, what is the frequency of the fundamental?
Q: 0.175 rad/m rad/m В. D. 68.2 26. What is the period of the wave(T)? A. 0.2 Hz В. 2 Hz 26 С. 1.2 Hz…
A: (26) Given Amplitude (A) = 10 cm Frequency ( f ) = 5 Hz We know Time period = 1/Frequency…
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Q: 3. A string has a linear density of 4.00 ×10-³ kg/m and is under a tension of 275 N. The string is…
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A: Given: The amplitude is 0.5 m.
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Q: A string with mass 4x10-3 kg and length 2 m is fixed at both ends such that its tension is 160 N.…
A: The given data are: m=4×10-3 kgL=2 mT=160 Nn=4 Here, m denotes the mass, L denotes the length, T…
Q: 8. A pan flute is a musical instrument consisting of several closed-end tubes of different lengths.…
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Q: 5. The fundamental frequency of a vibrating system is 525 Hz. If the system is a cylindrical pipe…
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Q: The D-string on a properly tuned guitar produces a tone with a fundamental frequency of 146.8 Hz.…
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Q: The fundamental frequency of a string fixed at both ends is 331 Hz. How long does it take for a wave…
A: Fundamental frequency of a string is given by the formula f = v4L where v is the velocity…
Q: A string 4 meters along weighs 4 gm and a is stretched with a tension of 40 gm. what is the velocity…
A: Length, L = 4 mMass, m = 4×10-3 kgTension, T = 40 g = 0.39 N Mass per unit length, M = mLM =…
Q: A 0.33-m long violin string has a mass of vibration when pulled by a tension of 72-N. [5] The sound…
A: Given: P= 40 W Intensity is 0.6 W/m2
Q: 15. A transverse traveling wave on a string has speed of propagation 8.00 m/s, amplitude 0.070 m and…
A:
Q: 1. A stretched string and an air column which is open at both ends are in resonance with each other.…
A: Given, The air column length, l=55cml=0.55m The speed of the wave,v=340m/s a. The fundamental…
Q: 5. You hold onto a rope and move your arms up and down at a rate of 2 cycles per second. The rope…
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Q: A woman is standing in the ocean, and she notices that after a wave crest passes, 10 more crests…
A: Given data: Number of more wave crest passed after first wave crest = 10 Total Time (t) = 66 s…
Q: 91. The fundamental frequency of a vibrating string is f₁. If the tension in the string is increased…
A: If you have any questions let me know in comment box thankyou for your question.
Q: Assume that a transverse wave is described by y = 5.0 sin(0.01xx + 5.0xt), %3D where x and y are in…
A: Given that the equation of transverse wave. Then We have to determine the value of given parts.
Q: 6. A heavy piece of hanging sculpture is suspended by a 90-cm-long, 5.0 g steel wire. When the wind…
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Q: 9. A 45-cm length of wire has a mass of 5.8 g. It is stretched between two fixed supports and is…
A: Given data: Length (L) = 45 cm = 0.45 m Mass (m) = 5.8 g = 0.0058 kg Tension (T) = 150 N Required:…
Q: An A string on a violin is supposed to have a fundamental frequency of 440 Hz. If the string is made…
A: In this question we are given that a string on a violin is supposed to have a fundamental frequency…
Q: A pipe that is open at both ends has a fundamental frequency of 320 Hz when the speed of sound in…
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Q: 2. It was tradition in some army troops in the past to cease stepping in perfect formation whenever…
A: Resonance: This is a phenomena that occurs when frequency of a periodic force is equal to the medium…
Q: 18. Which of the following equations describes a wave travelling in the positive x direction, with…
A: Amplitude A = 0.7 m Frequency f = 100 Hz Speed v = 300 m/s
Q: Find the tension in a 60 cm guitar string that has a mass of 1.4 g if it is to plug the note G with…
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Q: 1. A stone of mass M = 1.3 kg is suspended from a string on a 30-degree incline as shown above. If…
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Q: A guitar has 4 strings. The mass per unit length of the G string is 4 times the mass per unit length…
A: fundamental frequency of E string is given as, fE=12LTμ fundamental frequency of G string is given…
Q: 4. A A copper organ pipe open at both ends has two successive harmonics with frequencies of 215 Hz…
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Q: 8) Consider a 0.676-m long tube, open at both ends. a) What is the fundamental resonance frequency,…
A: The fundamental frequency is calculated using the formula f1 = v/(2L). where v is the speed of the…
Q: A string with a linear mass density of 0 0075 kg/m and a length of 6 m is set into then = 4 modes of…
A: Given, the linear mass density of spring is μ=0.0075kg/m length of the string is L=6m modes of…
Q: 4. What are the first three resonant lengths in a closed air column if the frequency of the tuning…
A: ifggg-
Q: 23. The following data was collected in a lab to measure the wavelength of a pulse on a string as a…
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Q: 7. Consider the resultant wave equation, y = (2.48 cm)sin[(5.0 cm³¹)x]cos[(x s¹)t]. (a) What is the…
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Q: 5. A guitar string with a linear density of 2.4g/m is stretched between supports that are 60cm…
A: The number of antinodes, n = 3 The linear density of the string, μ = 2.4 g/m = 2.4×10-3 kg/m The…
Q: D b.6.4E+1 N Dc 1.9E+3 N Dd.1.4E+2 N 1.1E+3 N
A: From the given information the string is struck in Ac note f=256 HzLength of this piano string is…
Q: How do you describe the frequency in the first harmonic? A. The frequency in the first harmonic is…
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Q: The tension in the piano wire is 10N. What should be the tension in the wire to produce a note of…
A: C
Q: Two travelling waves are defined: P+ = cos(kx-wt) and 4 = cos(kx+wt) Calculate the sum, 7++, and…
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Q: 1.)The equation of a transverse wave traveling in a string is given by y=A sin(k x−ωt). The tension…
A: Given:- T= 13 N A= 10 mm = 10^-2 m K= 28 rad/m w= 640 rad/s
Q: A boat is moving up and down in the ocean with a period of 1.6 s caused by a wave traveling at a…
A:
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