A particularly beautiful note reaching your ear from a rare Stradivarius violin has a wavelength of...
A particularly beautiful note reaching your ear from a rare Stradivarius violin has a wavelength of 39.1 cm. The room is slightly warm, so the speed of sound is 344 m/s.
If the string's linear density is 0.550 g/m and the tension is 140 N , how long is the vibrating section of the violin string?
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box .here in first line v=f/lambda
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A particularly beautiful note reaching your ear from a rare
Stradivarius violin has a wavelength of...
A particularly beautiful note reaching your ear from a rare Stradivarius violin has a wavelength of...
A particularly beautiful note reaching your ear from a rare Stradivarius violin has a wavelength of 39.1 cm. The room is slightly warm, so the speed of sound is 344 m/s. If the string's linear density is 0.720 g/m and the tension is 140 N , how long is the vibrating section of the violin string? Note: pleae provide the answer with real mathmatical symboles, not merely keybored parenthesis and slashes.
A particularly beautiful note reaching your ear from a rare Stradivarius violin has a wavelength of...
A particularly beautiful note reaching your ear from a rare Stradivarius violin has a wavelength of 39.1 cm. The room is slightly warm, so the speed of sound is 344 m/s. If the string's linear density is 0.740 g/m and the tension is 160 N , how long is the vibrating section of the violin string? Express your answer with the appropriate units.
A string on the violin has a length of 23.00 cm and a mass of 0.900...
A string on the violin has a length of 23.00 cm and a mass of 0.900 grams. The tension in the string is 653.00 N. The temperature in the room is TC = 21.40°C. The string is plucked and oscillates in the n = 6 mode. What is the speed (in m/s) of the wave on the string? What is the wavelength (in mm) of the standing wave produced? What is the frequency (in kHz) of the oscillating string? What...
One string of a certain musical instrument is 80.0 cm long and has a mass of...
One string of a certain musical instrument is 80.0 cm long and has a mass of 8.79 g . It is being played in a room where the speed of sound is 344 m/s. To what tension must you adjust the string so that, when vibrating in its second overtone, it produces sound of wavelength 0.756 m ? (Assume that the breaking stress of the wire is very large and isn’t exceeded.) What frequency sound does this string produce in...
Im looking for help on number 2! Thanks 1.0 Use X 2L/m and fo v/Am m...
Im looking for help on number
2! Thanks
1.0 Use X 2L/m and fo v/Am m (2) to solve these problems. For strings, the relationship fm 2V is also true. mn 2L 0.5! (w) 0.0 WWW -0.51 1. What is (a) the wavelength and (2) the mode of the standing wave in the figure of a vibrating string below? -1.01 -1.5 2 3 4 5 < (m) (w) 3. A string has a linear density of u 2.0 x 10-3...
Please be clear in what equations were used thank you! A heavy stone of mass m...
Please be clear in what equations were used thank you! A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long. When you gently pluck the upper end of the wire, a pulse travels down the wire and returns 7.84 ms later, having reflected off the lower end. The speed of sound in the room is 344 m/s, and the stone is heavy enough to prevent the lower end of...
EXAMPLE 14.8 Harmonics of a Stretched Wire GOAL Calculate string harmonics, relate them to sound, and...
EXAMPLE 14.8 Harmonics of a Stretched Wire GOAL Calculate string harmonics, relate them to sound, and combine them with tensile stress. PROBLEM (a) Find the frequencies of the fundamental, second, and third harmonics of a steel wire 1.00 m long with a mass per unit length of 2.00 x 10-kg/m and under a tension of 80.0 N. (b) Find the wavelengths of the sound waves created by the vibrating wire for all three modes. Assume the speed of sound in...
Hey there! i need help with a few questions from my Physics B class. Thank you...
Hey there! i need help with a few questions from my Physics B class. Thank you <3 1. The graph illustrates a standing wave along a string that spans x = -2 to x = 2. The string is held stationary at both ends. Which harmonic is shown? fourth second first third ---------------------------- 2. The graph illustrates one moment in the propagation of a transverse wave down a rope. What is the wavelength of the wave? 12 cm 8 cm...
summarizr the followung info and write them in your own words and break them into different...
summarizr the followung info and write them in your own words and break them into different key points. 6.5 Metering Chamber: 6.5.1 The minimum size of the metering box is governed by the metering area required to obtain a representative test area for the specimen (see 7.2) and for maintenance of reasonable test accuracy. For example, for specimens incorporating air spaces or stud spaces, the metering area shall span an integral number of spaces (see 5.5). The depth of...
Im looking for help on number
2! Thanks
1.0 Use X 2L/m and fo v/Am m (2) to solve these problems. For strings, the relationship fm 2V is also true. mn 2L 0.5! (w) 0.0 WWW -0.51 1. What is (a) the wavelength and (2) the mode of the standing wave in the figure of a vibrating string below? -1.01 -1.5 2 3 4 5 < (m) (w) 3. A string has a linear density of u 2.0 x 10-3...
EXAMPLE 14.8 Harmonics of a Stretched Wire GOAL Calculate string harmonics, relate them to sound, and combine them with tensile stress. PROBLEM (a) Find the frequencies of the fundamental, second, and third harmonics of a steel wire 1.00 m long with a mass per unit length of 2.00 x 10-kg/m and under a tension of 80.0 N. (b) Find the wavelengths of the sound waves created by the vibrating wire for all three modes. Assume the speed of sound in...
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