A guitar string is clamped at the nut and the bridge. When you pluck the string,...

A guitar string is clamped at the nut and the bridge. When you pluck the string,...

A guitar string is clamped at the nut and the bridge. When you pluck the string, you set up a standing wave on it. The “scale” of the guitar is the distance from nut to bridge, typically 64 cm.(a) [4 pts.] The low A string on a guitar is supposed to produce a note with a frequency of 110 Hz. What is the speed of sound on this string?(b) [3 pts.] If the pitch is too high, you can lower...

On a guitar, the lowest toned string is usually strung to the E note, which produces...

On a guitar, the lowest toned string is usually strung to the E note, which produces sound at 82.4 Hz. The diameter of E guitar strings is typically 0.0500 inches and the scale length between the bridge and nut (the effective length of the string) is 25.5 inches. Various musical acts tune their E strings down to produce a \"heavier\" sound or to better fit the vocal range of the singer. As a guitarist you want to detune the E...

The high-E string on a guitar (...standard tuning...) is fixed at both ends (...the nut and...

The high-E string on a guitar (...standard tuning...) is fixed at both ends (...the nut and the bridge...) with a length of 67.0 cm. The fundamental frequency (HE4 ) is 330 Hz. On a typical acoustical country guitar, this string has a diameter of 0.33 mm and is commonly make of brass (7760 kg/m3), whereas on an electric guitar, the string has a diameter of 0.25 mm and is made of nickel-coated steel (7990 kg/m3). Find the ratio of the...

The lowest note on a guitar is typically tuned to an E2. The next lowest string...

The lowest note on a guitar is typically tuned to an E2. The next lowest string is tuned to an A2 at 110 Hz, which is a fourth (5 half steps) higher than the E2. The next string is tuned to D3, which is a fourth higher than A2. (a) What are the frequencies of the lowest three open strings on a guitar tuned this way? (b) If I play the open E2 on the guitar, and then push the...

The lowest note on a guitar is typically tuned to an E2. The next lowest string...

The lowest note on a guitar is typically tuned to an E2. The next lowest string is tuned to an A2 at 110 Hz, which is a fourth (5 half steps) higher than the E2. The next string is tuned to D3, which is a fourth higher than A2. (a) What are the frequencies of the lowest three open strings on a guitar tuned this way? (b) If I play the open E2 on the guitar, and then push the...

The lowest note on a guitar is typically tuned to an E2. The next lowest string...

The lowest note on a guitar is typically tuned to an E2. The next lowest string is tuned to an A2 at 110 Hz, which is a fourth (5 half steps) higher than the E2. The next string is tuned to D3, which is a fourth higher than A2. (a) What are the frequencies of the lowest three open strings on a guitar tuned this way? (b) If I play the open E2 on the guitar, and then push the...

#1 If the fundamental frequency of an 76 cm long guitar string is 460 Hz, what...

#1 If the fundamental frequency of an 76 cm long guitar string is 460 Hz, what is the speed of the traveling waves? #2: You have an organ pipe that resonates at frequencies of 800, 1120, and 1440 Hz but nothing between these. It may resonate at lower and higher frequencies as well. What is the fundamental frequency for this pipe?

A guitar string of length 72.8 cm (which might be out of tune) has been plucked...

A guitar string of length 72.8 cm (which might be out of tune) has been plucked and is producing a note of frequency 334 Hz. (a) What is the speed of transverse traveling waves on this guitar string? Give your answer in m/s. HINT: The note you hear is produced by the vibrational mode of the string which has the fundamental (lowest possible) frequency. Draw a picture of the string vibrating in that mode and determine the wavelength of the...

a) A 1 meter long guitar string of linear mass density 2g/m3 is put under tension...

a) A 1 meter long guitar string of linear mass density 2g/m3 is put under tension until it resonates with a fundamental frequency of 440 Hz. Determine the tension that produces this fundamental frequency. Also determine the other of the first four harmonic frequencies and draw diagrams illustrating what each of these oscillations looks like on the string. b) This string will produce sound waves in the air, determine the wavelength of the sound waves. c) Suppose you had two...