Homework Answers
Velocity , v = 2*L*f/n = 2*0.13*345/0.88*4
v = 26 m/s , closer to 30 m/s (D) is Answer
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chp. 12 #20
A string, 0.13 m long, vibrating in the n = 4 harmonic, excites...
A string 3.30 m long and fixed at both ends is vibrating in its third harmonic....
A string 3.30 m long and fixed at both ends is vibrating in its third harmonic. The maximum displacement of any point on the string is 4.00 mm. The speed of transverse waves on this string is 59.5 m/s. (a) What are the wavelength and frequency of this standing wave? wavelength m frequency Hz (b) Write the wave function for this standing wave.
2.) The 2nd harmonic of a violin string with a length of 32 cm (between the fixed ends) and density of 0.15 kg/m resonates with the third harmonic of a 2.0-m long organ pipe with one end closed an...
2.) The 2nd harmonic of a violin string with a length of 32 cm (between the fixed ends) and density of 0.15 kg/m resonates with the third harmonic of a 2.0-m long organ pipe with one end closed and the other end open. (a) Draw a diagram for the problem, labelling the known and unknown variables. In your diagram, e standing waves for both the violin string and the organ pipe. For the organ pipe, graph the standing wave in...
Problem 3: Vibrating string A thin 2 m long string with mass 3g is stretched with...
Problem 3: Vibrating string A thin 2 m long string with mass 3g is stretched with a tension 90N between two ends. When it vibrates with the third harmonic the amplitude of the string at an antinode A of the standing wave on the string has an amplitude of 5 cm a) What is the speed of propagation of waves in the string? b) What is the maximum transverse speed of this point A on a string? c) What is...
2. A ukelele has steel strings which are 0.35 m long. The string which is 1.5...
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A 2 g string, 0.76 m long, is under tension. The string produces a 900 Hz...
A 2 g string, 0.76 m long, is under tension. The string produces a 900 Hz tone when it vibrates in the third harmonic. The speed of sound in air is 344 m/s. The tension in the string, in SI units, is closest to: (A) 740 (B) 650 (C) 450 (D) 550 (E) 350 I keep getting 456 as an answer-- which is incorrect. Please show work so I can see what I'm doing wrong. Thanks!
I am completing a study guide, and was able to complete the first 2 pages. Any...
I am completing a study guide, and was able to complete the
first 2 pages. Any help on these questions?
You are driving south on a road at a speed of 21.3 m/s and you hear a siren from a police car at a frequency of 915 Hz, as the police car approaches you while driving north. If the police car is going at a speed of 32.4 m/s, and the speed of sound is 343 m/s, what frequency would...
I am completing a study guide for the next section of class because I am trying...
I am completing a study guide for the next section of class
because I am trying to get ahead. Any suggestions?
A wave whose displacement velocity is either in the same direction or opposite direction as the wave velocity describes which type of a wave? a. Transverse wave b. Mechanical wave c. Longitudinal wave d. Electromagnetic wave Which of the following are always one wavelength apart and are drawn as parallel lines? Plane waves b. Wave fronts c. Wave phase...
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I am completing a study guide, and was able to complete the
first 2 pages. Any help on these questions?
You are driving south on a road at a speed of 21.3 m/s and you hear a siren from a police car at a frequency of 915 Hz, as the police car approaches you while driving north. If the police car is going at a speed of 32.4 m/s, and the speed of sound is 343 m/s, what frequency would...
I am completing a study guide for the next section of class
because I am trying to get ahead. Any suggestions?
A wave whose displacement velocity is either in the same direction or opposite direction as the wave velocity describes which type of a wave? a. Transverse wave b. Mechanical wave c. Longitudinal wave d. Electromagnetic wave Which of the following are always one wavelength apart and are drawn as parallel lines? Plane waves b. Wave fronts c. Wave phase...
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