What happens with the fundamental frequency of an open tube when the tube is gradually submerged...

A certain tube, open at both ends, resonates at a frequency of 286 Hz when the...

A certain tube, open at both ends, resonates at a frequency of 286 Hz when the air temperature is 35.0OC. When one end of the tube is closed and the air temperature is 15.0OC, it resonates at a frequency of 449 Hz. Find the length of the tube.

A pipe open at both ends has a fundamental frequency of 3.00 3 102 Hz when...

A pipe open at both ends has a fundamental frequency of 3.00 3 102 Hz when the temperature is 0°C. (a) What is the length of the pipe? (b) What is the fundamental frequency at a temperature of 30.0°C?

a wooden tube, 1.2 meters long and open at both ends produces sound when it hits....

a wooden tube, 1.2 meters long and open at both ends produces sound when it hits. The tube has a diameter of 3 cm. the temp in the room is 34 degrres Celcius: a) what is the frequency if the third harmonic? b) the tube was filled with a gas and the frequency of the fundamental was changed to 400 Hz. What is the speed of sound in the gas?

An organ pipe open at both ends is to be designed so that the fundamental frequency...

An organ pipe open at both ends is to be designed so that the fundamental frequency it plays is 220 Hz. a. What length of pipe is needed? b. If one end of the pipe is stopped up, what other note (frequency) can this same pipe play? c. Draw the fundamental frequency for the pipe open at both ends and when it is closed at one end. d. Calculate and draw the next higher harmonic when one end of the...

An open tube is resonating at two successive harmonics of frequencies 650 HzHz and 980 HzHz...

An open tube is resonating at two successive harmonics of frequencies 650 HzHz and 980 HzHz .   A) What is the fundamental frequency of the tube? B) What is the speed of sound if the length of the tube is 33cm C) What is the frequency of the 4th harmonic?

The standing wave properties of an ear canal are often modelled as a tube with one...

The standing wave properties of an ear canal are often modelled as a tube with one end open and one end closed. This is shown in the following diagram for a tube of length L = 2.1 cm. The fundamental mode for the sound-pressure standing wave is indicated.The standing wave properties of an ear canal are often modelled as a tube with one end open and one end closed. This is shown in the following diagram for a tube of...

A 1.00-m vertical tube, with its bottom closed and top open to the air, is partly...

A 1.00-m vertical tube, with its bottom closed and top open to the air, is partly filled with mercury. What is the absolute pressure at the bottom of the tube if the fundamental frequency of the filled tube is equal to the fifth harmonic of the empty tube? The answer is 2.05x10^5 Pa. Please show work.

The fundamental frequency of an organ pipe, closed at one end, is 255.6 Hz. a)What is...

The fundamental frequency of an organ pipe, closed at one end, is 255.6 Hz. a)What is the fundamental frequency of this organ pipe if the temperature drops to 1.20°C? (Hz) The fundamental frequency of an organ pipe, open at both ends, is 278.9 Hz. b) What is the fundamental frequency of this organ pipe if the temperature drops to 1.00°C?

What is the length of an open-pipe resonator with a fundamental frequency of 400.0Hz 400.0 Hz...

What is the length of an open-pipe resonator with a fundamental frequency of 400.0Hz 400.0 Hz ? (Assume the speed of sound is 331m/s 331 m/s .) flute is an open-pipe resonator that can produce a wavelength that is twice as long as itself. A clarinet is a closed-pipe resonator. What is the longest wavelength that a clarinet can produce? Why do the same notes sound different on different musical instruments? What is the possible number of nodes and antinodes...

Answer the following waveguide fundamental questions A)What is the value of the cutoff frequency for a...

Answer the following waveguide fundamental questions A)What is the value of the cutoff frequency for a TE32 mode in an air filled waveguide of dimensions 4 centimetres by 3 centimetres? B) If a wave is introduced at a lower frequency than the cutoff frequency, what happens? C) If a wave is introduced at a higher frequency than the cutoff frequency, what happens? D) What is the value of the cutoff frequency and the useful operating frequency range for a waveguide...