The four strings on a violin have different thicknesses, but are all under approximately the same tension. Do waves travel faster on the thick strings or the thin strings? Why? How does the fundamental vibration frequency compare for the thick versus the thin strings?

The four strings on a violin have different thicknesses, but are all under approximately the same tension. Do waves travel faster on the thick strings or the thin strings? Why? How does the fundamental vibration frequency compare for the thick versus the thin strings?

Related questions

Q: Suppose that there are standing waves in a closed pipe. Which of the following is true regarding the…

Q: Ex. 38: The copper wires of radii r₁ and 12 (1₁> 1₂) are subjected to same tension and are plucked.…

A: To find-How transverse wave will travel on the strings.Given-Radii of two copper wires are (r1) and…

Q: You have a string with a mass of 0.0139 kg. You stretch the string with a force of 9.59 N, giving it…

A: For fourth harmonic of a vibrating string we have

Q: : The equation of a transverse wave on stretched string is given by Y = 0.05 sin t X €60.0 where x…

A: We need to compute-(1) Wavelength (λ)=?(2) Wave velocity (V)=?The data given as-Y=0.05 sin…

Q: A tube is open at one end and closed at the other. If the tube is 8.0 m long, what are the…

A: Given data: Tube open at one end and closed at the other end Length (L) = 8.0 m Required: The…

Q: You are told that two guitar strings produce waves of the same wavelength. String A is a thick…

Q: Two violin strings have the same length, tied down at both ends, and are stretched with the same…

A: Speed of wave in string = ( T/μ)1/2 μ = mass per unit lengh Since μ is different so wave speed will…

Q: Suppose we have a string 1.2m long and fixed at both ends. We adjust the tension on the string until…

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: What phase difference between two identical traveling waves, moving in the same direction along a…

Q: A wave on a string is described by the wave function y = 0.100 sin(0.30x − 18t),where x and y are in…

A: (a) The given wave function of the string is, y=Asinky-ωt=0.1 msin0.30 rad/m2.40 m-18 rad/st=0.1…

Q: A 0.62-kg Slinky has 185 coils. When you and your friend stretch the Slinky by exerting a 2.0-N…

Q: 10) Two consecutive frequencies of standing waves on a string fixed at both ends are 280 Hz and 315…

A: The formula for the frequency of nth harmonic can be determined as below, Here v is the velocity of…

Q: A trumpet is a classical example of a standing wave produced by one closed end and one open end.…

A: A trumpet is a classical example of a standing wave produced by one closed end and one open end.…

Q: Why should one use string that does not stretch when producing standing waves? How would a string…

A: The resonance frequency in a stretched string, f=nv2LHere, L= length, v= velocity of transverse…

Q: All the strings on a violin, cello, and guitar are the same length. What differences do they have…

A: Let L denotes the string length, T denotes the string tension, m denotes the string mass, and f…

Q: The speed of waves on a 2-m long string is 40 m/s. If (8/3) m is a natural wavelength for standing…

A: Given that the the speed of waves on a 2 m long string is 40 m/s. If (8/3) m is a natural wavelength…

Q: Violinists sometimes bow the string to produce maximum vibration (antinodes) at one-quarter and…

A: The relationship between frequency, wavelength and the speed of the wave on the string is given…

Q: The D-string on a properly tuned guitar produces a tone with a fundamental frequency of 146.8 Hz.…

Q: flexible cable of 20 meter length has a mass of 5.0 kg. It is attached onto the ceiling and vibrates…

A: Given:- The length of the cable L = 20 m The mass of the cable m = 5 kg The upper end with the…

Q: You are in a cave where the speed of sound is 340 m/s. If you shout from one end and hear your echo…

A: Given: The speed of the sound is 340 m/s. The time taken by the echo is 0.4 s. To…

Q: (a) A standing wave can produce a resonance frequencey. Some times the resonance is useful and…

A: Given information: Here, l is the wire’s length, m is the wire’s mass, T is the tension in the…

Q: Standing waves in a string can be produced by oscillating the string at the various natural…

A: Given , A string vibrator having only one frequency

Q: A tuning fork has a period of 4s. What is the frequency? If the tuning fork above is struck in…

A: The frequency and the time period of the tuning forks are related to each other.

Q: Which of the following is true about periodic and sinusoidal waves?

A: Option (2) is correct, i.e.- All sinusoidal waves are periodic, but not all periodic waves are…

Q: Sinusoidal water waves are created 120 kilometers offshore by an earthquake near a small island.…

A: The range of Sinusoidal water waves is The amplitude of the wave is The wavelength of the wave is…

Q: A bass string vibrates at 98 Hz when its full length is allowed to vibrate. If it is now held so…

Q: Ex. 38 The copper wires of radii r₁ and 2 (11>r₂) are subjected to same tension and are plucked.…

A: Solution: The velocity of the transverse wave of a wire is given by the following relation:…

Q: wo identical piano wires have a fundamental frequency of 600 Hz when kept under the same tension.…

A: Fundamental frequency of vibrations produced on a string under tension is given by the expression…

Q: A point source is generating circular water waves. (a) What does the amplitude of the wave near the…

Q: Suppose the pulley absorbs a significant fraction of the energy in the wave so that the amplitude…

A: The following two cases arise for waves generated by the perfect reflection: The nodes of the…

Q: Two piano strings are played together producing 3 beats per second. The pitch of the first string is…

Q: A pipe that is open at both ends has a fundamental frequency of 320 Hz when the speed of sound in…

Q: Consider a tube open at both ends that has a length of 0.500m.a) What is the period of the…

A: The objective of this question is to calculate the period of the fundamental frequency, the…

Q: A guitar string with a mass density µ =2 x 10-4 kg/m is L =0.92 m long on the guitar. The stringis…

A: “Since you have posted a question with multiple sub parts, we will provide the solution only to the…

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: In the normal mode of a vibrating string, multiple frequencies are present and one of these is the…

A: Answer:- overtones In the normal mode of a vibrating string, multiple frequencies are present and…

Q: 75 (a) What is the fastest transverse wave that can be sent along a steel wire? For safety reasons,…

A: Given that the maximum tensile stress to which subjected is 7* 10^8 and density of the Steel is also…

Q: you have a string with a mass of 0.0121 kg. you stretch the string with a force of 9.57 N, giving it…

A: Solution:-We know thatwavelength of fourth harmonic

Question

The four strings on a violin have different thicknesses, but are
all under approximately the same tension. Do waves travel faster on the
thick strings or the thin strings? Why? How does the fundamental vibration
frequency compare for the thick versus the thin strings?

Expert Solution