: A pipe of length 10 cm, closed at one, has frequency equal to half the 2nd overtone of another pipe open at both the ends. The length of the open pipe is (a) 10 cm (c) 35 cm (b) 20 cm (d) 30 cm
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Q: A pipe of length 10cm closed at one end, has frequency equal to half the 2nd overtone of another…
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A: We know that fundamental frequency for open pipe is is given by f=v2L and for closed pipe f=v4L
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- Problem 1 In pipe A, the ratio of a particular harmonic frequency to the next lower harmonic frequency is 1.2. In pipe B, the ratio of a particular harmonic frequency to the next lower harmonic frequency is 1.4. How many open ends are in pipe A and pipe В?A pipe that is open at both ends has a fundamental frequency of 311 Hz when the speed of sound in air is 346 m/s. (a) What is the length of the pipe? m(b) What are the next two harmonics? 1st Harmonic = Hz 2nd Harmonic = HzA third harmonic frequency is being played on a pipe organ, Considered the pipe organ to be closed air column. If the speed inside the pipe is 343 metres per second and the frequency is 243 hertz, calculate the length of the pipe.
- For a standing wave on a string, the distance between nodes is 0.125 m, the frequency is 256 Hz, and the amplitude is 1.40 * 10-3 m. What are (a) the speed of waves on this string, (b) the maximum transverse velocity at an antinode, and (c) the maximum transverse acceleration at an antinode?The fundamental frequency of an open organ pipe corresponds to the note middle C (f = 261.6Hz). The third harmonic of another organ pipe that is closed at one end has the same frequency. Compare the lengths of these two pipes.A string has a mass of 7.8g and a length of 1.55m. A second string has a mass of 4.4g and a length of 2.45m. One end of each string is melted to the other to form one long string. This combined string is stretched tight with a tension of 18.7N. How long would it take for a transverse disturbance introduced at one end of the string to reach the opposite end of the string?
- A string can have a "free" end if that end is attached to a ring that can slide without friction on a vertical pole (Fig. 15-40). Determine the wavelengths of the resonant vibrations of such a string with one end fixed and the other free. o dignelovew lloh bi bhs eoh Free end Fixed end 16 FIGURE 15-40 Problem 85. l-The shortest pipe in a particular organ is 1.07 m. (a) Determine the frequency (in Hz) of the third harmonic (at 0°C) if the pipe is closed at one end. Hz (b) Determine the frequency (in Hz) of the third harmonic (at 0°C) if the pipe is open at both ends. Hz (c) Determine these frequencies (in Hz) at 20.0°C. pipe frequency (Hz) closed openA rope has length L equals to 3.0 m and is fixed to both ends. What is the wave length pattern for the 5th harmonic?
- A sinusoidal wave of frequency 500 Hz has a speed of 370 m/s. (a) How far apart are two points that differ in phase by n/3 rad? (b) What is the phase difference between two displacements at a certain point at times 4.1 ms apart? (a) NumberTo.123 |Units m (b) Number Units radA pipe has a length of 0.582 m and is open at both ends. Take the speed ofsound to be v = 343 m/s.(a)Calculate the two lowest harmonics of the pipe (in Hz).(b)Calculate the two lowest harmonics (in Hz) after one end of the pipe is closed.Pipe A is 2 m long and open at both ends. Pipe B is open at one end and closed at the other. Determine the length of pipe B so that it has the same fundamental frequency as A.