4. A pipe 0.45 m long has two consecutive harmonics with frequencies of 929 Hz and...

A pipe is 2.37 m long. (a) Determine the frequencies of the first three harmonics if...

A pipe is 2.37 m long. (a) Determine the frequencies of the first three harmonics if the pipe is open at both ends. Take 344 m/s as the speed of sound in air. f1 = 72.6 Correct: Your answer is correct. Hz f2 = 145.2 Correct: Your answer is correct. Hz f3 = 217.8 Correct: Your answer is correct. Hz (b) How many harmonic frequencies of this pipe lie in the audible range, from 20 Hz to 20000 Hz? 275...

You have two air columns that are each 1.870 m long. One column is open at...

You have two air columns that are each 1.870 m long. One column is open at both ends and the other is closed at one end. You wish to determine the frequencies you can produce in the audible range (20 Hz–20,000 Hz) on a day when the temperature of the air is at 6.000°C. (Give your answers to at least four significant figures. Assume that the speed of sound at 0° C is exactly 331 m/s.) (a) in the column...

You have two air columns that are each 2.470 m long. One column is open at...

You have two air columns that are each 2.470 m long. One column is open at both ends and the other is closed at one end. You wish to determine the frequencies you can produce in the audible range (20 Hz–20,000 Hz) on a day when the temperature of the air is at 24.00°C. (Give your answers to at least four significant figures. Assume that the speed of sound at 0° C is exactly 331 m/s.) (a) in the column...

A stretched string can oscillate in resonance at 1280. Hz and at 1536 Hz. There are...

A stretched string can oscillate in resonance at 1280. Hz and at 1536 Hz. There are no resonance frequencies between the frequencies. a. what is the fundamental resonance frequency of the string? b. what is the length of an organ pipe, open at both ends, that has the same fundamental frequency as the string? (Assume that the velocity of the sound in air is 343.0 m/s) c. Would the organ pipe of part (b) also be capable of resonance at...

An organ pipe is 134cm long and operates at room temperature. What are the frequencies of...

An organ pipe is 134cm long and operates at room temperature. What are the frequencies of the fundamental (n=1) and the next harmonic (n=2) if both ends of the pipe are open? What are the frequencies of the fundamental (n=1) and the next harmonic (n=3) if one end of the pipe is closed?

9. (a) A 1 m long string has a mass per unit length of 1.5×10−3 kg/m...

9. (a) A 1 m long string has a mass per unit length of 1.5×10−3 kg/m and is under a tension of 35 N. Find the first four harmonics of this string. (b) A given pipe is 1.5 m long. If the speed of sound through this pipe is 343 m/s, what are the frequencies of the first three harmonics of the pipe when it is: (i) open at both ends, (ii) open at only one end. 10. A truck...

What frequencies (in Hz) will a 1.95 m long tube produce in the audible range (20...

What frequencies (in Hz) will a 1.95 m long tube produce in the audible range (20 Hz - 20,000 Hz) at 15.0°C for the following cases? (a) the tube is closed at one end lowest frequency Hzsecond lowest frequency Hzhighest frequency (rounded to the nearest Hz) Hz (b) the tube is open at both ends lowest frequency Hzsecond lowest frequency Hzhighest frequency (rounded to the nearest Hz) Hz

What frequencies (in Hz) will a 1.55 m long tube produce in the audible range (20...

What frequencies (in Hz) will a 1.55 m long tube produce in the audible range (20 Hz - 20,000 Hz) at 21.0°C for the following cases? the tube is closed at one end lowest frequency Hzsecond lowest frequency Hzhighest frequency (rounded to the nearest Hz) Hz (b) the tube is open at both ends lowest frequency Hzsecond lowest frequency Hzhighest frequency (rounded to the nearest Hz) Hz

part 1. A 9.00-m long string sustains a three-loop standing wave pattern as shown. The string...

part 1. A 9.00-m long string sustains a three-loop standing wave pattern as shown. The string has a mass of 45 g and under a tension of 50 N. a. What is the frequency of vibration? b. At the same frequency, you wish to see four loops, what tension you need to use. Part 2. a. Determine the shortest length of pipe, open at both ends, which will resonate at 256 Hz (so the first harmonics is 256Hz). The speed...

An organ pipe is 1.2 m long. What are the fundamental and first two overtones is...

An organ pipe is 1.2 m long. What are the fundamental and first two overtones is the pipe is (a) closed at one end. (b) open at both ends?