A frequency generator is placed next to tube that is closed at the opposite end. The...

A tube 1m long is closed at one end. A stretched wire is placed near the...

A tube 1m long is closed at one end. A stretched wire is placed near the open end. The wire is 0.30m long and has a mass of 0.010kg. It is held fixed at both ends and vibrates in its fundamental mode. It sets the air column in the tube into vibration at its fundamental frequency by resonance. Find (a) the frequency of oscillation of the air column and (b) the tension in the wire.

A 514-Hz tuning fork is struck and placed next to a tube with a movable piston,...

A 514-Hz tuning fork is struck and placed next to a tube with a movable piston, creating a tube with a variable length. The piston is slid down the pipe and resonance is reached when the piston is 110 cm from the open end. The next resonance is reached when the piston is 82.5 cm from the open end. Round all answers to one decimal place. Hint (a) What is the speed of sound in the tube? v=v=  m/s How far...

A tube closed at one end has resonant frequencies that are 300 Hz apart. If this...

A tube closed at one end has resonant frequencies that are 300 Hz apart. If this tube is now opened at both ends, what is the 1st harmonic frequency? Please explain the n values in great detail used for the formulas (other Chegg answers do not do this).

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

The frequencies of two successive higher harmonics of a standing sound wave in a closed-closed tube...

The frequencies of two successive higher harmonics of a standing sound wave in a closed-closed tube is 450 Hz and 600 Hz. There are no other frequencies in between these two. What are the frequencies of the fundamental (1st harmonic) and the second harmonic of this tube? Draw the standing wave pattern (with respect to pressure variation) of the second harmonic. Mark the nodes and anti-nodes.

Lets say you want to make a tube, closed at one end, that has a fundamental...

Lets say you want to make a tube, closed at one end, that has a fundamental frequency of 262 hz. Lets assume that the speed of sound is 343m/s and that the diameter of the tube is 4.0 cm. What length would you cut the tube?

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.

The water level in a vertical glass tube 1.60 m long can be adjusted to any...

The water level in a vertical glass tube 1.60 m long can be adjusted to any position in the tube. A tuning fork vibrating at 503 Hz is held just over the open top end of the tube, to set up a standing wave of sound in the air-filled top portion of the tube. (That air-filled top portion acts as a tube with one end closed and the other end open.) (a) For how many different positions of the water...

What are the first 3 resonant frequencies on a 20cm long tube, with one end closed?...

What are the first 3 resonant frequencies on a 20cm long tube, with one end closed? Use your speed of sound measurement in this calculation. Speed of sound measurement = 339.8 m/s