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?
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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?
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- In the normal mode of a vibrating string, multiple frequencies are present and one of these is the fundamental frequency of oscillation. The other frequencies present are called: harmonics; The answer cannot be found in the other choices. octaves; overtones;75 (a) What is the fastest transverse wave that can be sent along a steel wire? For safety reasons, the maximum tensile stress to which steel wires should be subjected is 7.00 x 10$ N/m². The den- sity of steel is 7800 kg/m². (b) Does your answer depend on the di- ameter of the wire?What is the speed of a transverse wave on the rope if the mass were increased to 3.00 kg? What is the wavelength of a transverse wave on the rope if the mass were increased to 3.00 kg?
- A string with a mass of 0.02 kg and a length of 2 meters is stretched between two fixed points. The tension in the string is 100 N. Calculate the speed of a transverse wave traveling through the string. (Note: Assume the string is massless, and there is no damping or energy loss during wave propagation.)A string is 1.5 m long and the wave travels at 250 m/s on the string. 1) What's the fundamental wavlength of the wave on a string? 2) What is the fudamental frequency? 3) What is the frequency of the fourth harmonic?A nylon string fixed at both ends vibrates with a fundamental frequency of 196 Hz. Which of the following would have a higher fundamental frequency than this string? An indentical string that is longer. A nylon string with twice the diameter, but the same length. An indentical string that is tightened to a higher tension. An identical string that is given a larger amplitude of vibration.
- A taut string for which μ = 5x10-2 kg/m is under a tension of 80 N. (a) How much power must be supplied to the string to generate sinusoidal waves at a frequency of 60 Hz and an amplitude of 6 cm? (b) if the string is to transfer energy at a rate of 1000 W? What must be the required amplitude if all other parameters remain the same?World-renowned bluegrass musician, Frog Newton, has invited you to join his band. It is apparent that he is only looking for eye-candy on the stage, because you are only asked to play one note, the C at a frequency of 525 Hz. You make your own instrument using a string that is 0.5 meters long and has a mass of 2 grams. Now you need to calculate the necessary tension on the string, And you will be ready to jam! What is the wavelength of the first harmonic (also called the fundamental frequency) of standing wave created by the vibrating string m Submit Answer Tries 0/2 At what speed would a wave propagate on this string? m/s Submit Answer Tries 0/2 What is the linear density of the string? kg/m Submit Answer Tries 0/2 What is the tension needed to produce the C note?Suppose that there are standing waves in a closed pipe. Which of the following is true regarding the harmonics present? Only odd harmonics are present. Only even harmonics are present. All harmonics are present. There are no waves in a closed pipe due to non-resonance and rigidness.