3. The frequency of the highest note on a certain musical instrument is 2000 Hz. a....

An instrument plays 3 notes in a row, 500 Hz, 2000 Hz and 4000 Hz. We...

An instrument plays 3 notes in a row, 500 Hz, 2000 Hz and 4000 Hz. We pick up the notes by sampling them on 6000 Hz use a perfect loew pass filter with cut off frequencty in the Nyquist frequency. 1. What is the Nyquist frequency? 2. At what frequency will the notes be played after the sampling?

A trombone is one of the musical instruments demonstrated in class. For this problem, treat a...

A trombone is one of the musical instruments demonstrated in class. For this problem, treat a trombone as a pipe, open at one end, with a length of 2.7 m when the slide is all the way in. Assume the speed of sound in air is 343 m/s. Part A: Music What class of musical instruments does the trombone belong to? What is the ultimate source of vibrations for a trombone? How does a musician change the pitch of a...

for any five successive harmonics in a certain organ pipe, the frequency difference between the highest...

for any five successive harmonics in a certain organ pipe, the frequency difference between the highest and lowest of the five is 392 hz. if the middle frequency of one particular set of five is 1127hz (a) dettermine the fundemental feequency (b) is the pipe open or closed... explain (c) what is the pipes length if the speed of sound is 344 m/s

The harp is a stringed musical instrument that has a number of individual strings running at...

The harp is a stringed musical instrument that has a number of individual strings running at an angle to its soundboard; the strings are plucked with the fingers to produce a sound. The strings can be made tighter or looser through the use of tuning pins (see the image below – for this question you can ignore the effects of the soundboard and pedals). Describe in detail what determines the frequency of sound of each string when it is plucked...

1. If a wind instrument, such as a tuba, has a fundamental frequency of 30.1 Hz,...

1. If a wind instrument, such as a tuba, has a fundamental frequency of 30.1 Hz, what is its first overtone? It is closed at one end and the speed of sound is 334 m/s. 2. Find the length of an organ pipe closed at one end that produces a first overtone frequency of 276 Hz when air temperature is 21.3ºC . 3. A “showy” custom-built car has two brass horns that are supposed to produce the same frequency but...

The G-string on a guitar is 64.8 cm long and is properly tuned to 196 Hz...

The G-string on a guitar is 64.8 cm long and is properly tuned to 196 Hz (fundamental) frequency. a. Sketch the first harmonic on this guitar string at two different times. b. What is the frequency of the G note one octave above this frequency? One octave below? c. What is the frequency of the note a perfect fifth above this frequency? d. What is the wavelength of the first harmonic of this guitar string? e. What is the speed...

Acoustic 7. One string of a certain musical instrument is 80 cm long and has mass...

Acoustic 7. One string of a certain musical instrument is 80 cm long and has mass of 8,72 gram. It is being played in a room where the speed of sound is 344 m/s. a. To what tension must you adjust the string so that, when vibrating in its second overtone, it produces sound of wavelength 3,40 cm? b. What frequency sound does this string produce in its fundamental mode of vibration? PLEASE ANSWER CLEARLY

The highest frequency that a healthy ear can typically hear is 2.0 × 104 Hz. Assume...

The highest frequency that a healthy ear can typically hear is 2.0 × 104 Hz. Assume that a sound wave with this frequency travels at 344 m/s and passes through a doorway that has a width of 1.0 m. (a) Determine the angle that locates the first minimum to either side of the central maximum in the diffraction pattern for the sound. (b) Suppose that yellow light (wavelength = 570 nm, in vacuum) passes through a doorway and that the...

a) A siren blares an apparent frequency of 1200 Hz as it drives toward you a...

a) A siren blares an apparent frequency of 1200 Hz as it drives toward you a 30 m/s. If you are standing still, what is the actual frequency of the siren? What frequency do you hear as it is driving away from you? b)When two trumpets play the same note, a tuner measures a beat frequency of 2 Hz. If one trumpet is playing a 440 Hz note, what frequency is the other trumpet playing?

A musician in a concert hall is tuning her wind instrument. When she plays a short...

A musician in a concert hall is tuning her wind instrument. When she plays a short note she hears the echo of the note return from the opposite side of the 50.0 meter long auditorium 0.294 seconds later. Model the instrument as a tube closed at one end, if the instrument is properly tuned the note of the musician played would have a frequency of 233.082 Hz, but instead has a frequency of 226.513 Hz. This note is the first...