Experiment using Resonance Air column
Using the principle of resonance, the resonance air column equipment measures the sound velocity in room temperature air. Resonance happens at particular air column lengths when a tuning fork with a known frequency is struck and held above the air column. The velocity of sound in air can be computed by measuring these lengths.
Speed of sound: Resonance air column- Materials required
Resonance Air column apparatus: ( A long graduated glass tube with a movable water reservoir and a clamp stand to hold the resonance tube vertically).
Tuning forks of known frequencies (e.g., 256,288,340,412 and 512}
Rubber hammer or striker
Rubber Pad
Thermometer (For to measure the lab temperature) and
Water
Speed of sound: Resonance air column- Formula
Resonance Air Column Apparatus -Image
Resonance air column:Speed of sound-Experimental Setup
Using a clamp stand, position the resonance tube vertically.
Pour some water into the tube. The water reservoir can be moved up or down to change the water level.
Make sure there is no damage or dirt on the tuning fork.
Use the thermometer to determine the room temperature.
Speed of Sound: Resonance Air Column -Procedure
First Harmonic (First Resonance):
Holding the tuning fork horizontally just above the resonance tube’s open end, lightly strike it with the rubber hammer.
Move the reservoir downward to gradually reduce the water level in the tube. Keep an ear out for a sudden rise in resonance, or sound intensity.
First Resonating length
The air section over the water level is constrained(forced) with a tuning fork of suitable frequency. We get the main (first) resonance condition at a stature in which the natural frequency is equivalent to the forced frequency.
For a length of l1, we get the main(first) resonance condition (booming sound).
Second Resonance (Third Harmonic):
Continue lowering the water further until you hear another increase in sound intensity(booming sound) which is the second resonance.
Second Resonating Length
Further assuming we bring down the water level in the reverberation tube by changing the repository(reservoir) to get the subsequent (second) resonance condition.
The second resounding(resonating) length is taken as l2.
First and Second resonating length -Image
Repeat for Different Frequencies
Repeat the experiment for different frequencies and find the resonating lengths in each case to ensure accuracy.
Speed of sound- Resonance Air column – Tabular column
| S.No. | Frequency of
the tuning fork
Hz |
First resonating
length l1
cm |
Second resonating length l2
cm |
Speed of sound
m/s |
| 1. | 256 | 32.0 | 96.0 | 327.68 |
| 2. | 288 | 30.0 | 90.0 | 345.60 |
| 3. | 320 | 28.0 | 84.0 | 358.40 |
| 4. | 341 | 27.0 | 81.0 | 368.28 |
| 5. | 384 | 25.0 | 75.0 | 384.00 |
Speed of sound: Resonance air column-Precautions:
Ensure the tuning fork is struck gently to avoid damage.
Measure the lengths l1 and l2 accurately.
Perform the experiment in a quiet environment to clearly hear the resonance.
Ensure the resonance tube is vertical to avoid errors in measurement.
Speed of sound: Resonance air column-Result
The velocity of sound in air at the lab temperature 26 degree Celsius(at the lab temperature) is found to be 356.79 m/s
Theoretical speed of sound at 26 degree Celsius is 346.6 m/s
The experimental value is slightly higher possibly due to errors like end correction,ambient conditions and tuning fork calibration
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