How Long Is a 140 Hz Wavelength?
A 140 Hz sound wave has a wavelength of 2.45 meters, 245.15 cm, 8.04 feet (8 feet and 0.52 inches) or 96.52 inches when traveling in air at 20°C (68°F).
The formula for the wavelenght is λ = c/f
where:
c
is the celerity (speed) of sound = 343.21 m/s or 1126.03 ft/s in air at 20°C (68°F).f
is the frequency = 140 Hz
λ
of 2.45 meters, or 8.04 feet.
140 Hz Wavelength Depending on Temperature
The speed of sound in air depends on temperature. Here is how the wavelenght of a 140 Hz sound wave will vary according to temperature:
Temp (°C) | Temp (°F) | 140 Hz wavelength (m) | 140 Hz wavelength (ft) |
---|---|---|---|
-40 | -40 | 2.1863 | 7.1729 |
-35 | -31 | 2.2096 | 7.2494 |
-30 | -22 | 2.2327 | 7.3251 |
-25 | -13 | 2.2555 | 7.4001 |
-20 | -4 | 2.2781 | 7.4742 |
-15 | 5 | 2.3005 | 7.5477 |
-10 | 14 | 2.3227 | 7.6204 |
-5 | 23 | 2.3447 | 7.6925 |
0 | 32 | 2.3664 | 7.7639 |
5 | 41 | 2.3880 | 7.8346 |
10 | 50 | 2.4094 | 7.9047 |
15 | 59 | 2.4305 | 7.9742 |
20 | 68 | 2.4515 | 8.0431 |
25 | 77 | 2.4724 | 8.1114 |
30 | 86 | 2.4930 | 8.1791 |
35 | 95 | 2.5135 | 8.2463 |
40 | 104 | 2.5338 | 8.3129 |
140 Hz Half Wavelength and Standing Waves
The half wavelength of a 140 Hz sound wave is 1.23 meters, 122.58 cm, 4.02 feet (4 feet and 0.26 inches) or 48.26 inches when travelling in air at 20°C (68°F).
Modes (or standing waves) will occur at 140 Hz in rooms where two opposing walls (axial mode), edges (tangential mode) or corners (oblique mode) are spaced by a distance d = nλ/2
where:
n
is a natural (positive integer greater than or equal to 1)λ
is the 140 Hz wavelength = 2.45 meters, or 8.04 feet in air at 20°C (68°F).
140 Hz Standing Waves Distances
n | Distance (m) | Distance (ft) |
---|---|---|
1 | 1.23 | 4.02 |
2 | 2.45 | 8.04 |
3 | 3.68 | 12.06 |
4 | 4.90 | 16.09 |
5 | 6.13 | 20.11 |
6 | 7.35 | 24.13 |
7 | 8.58 | 28.15 |
8 | 9.81 | 32.17 |
9 | 11.03 | 36.19 |
10 | 12.26 | 40.22 |
11 | 13.48 | 44.24 |
12 | 14.71 | 48.26 |
13 | 15.93 | 52.28 |
Given the relatively large 140 Hz half wavelength, standing waves will occur at that frequency in small listening rooms.
You can try to minimze the room modes at 140 Hz by trying different speaker positions, listening positions or by placing bass traps. These can absorb frequencies as low as 63 Hz.
How To Convert 140 Hz To ms
A Hz (Hertz) is a cycle (or period) per second.
Because a 140 Hz wave will ocillate 140 times per second, we can find the time of a single cycle (or period) with the formula p = 1/f
where:
f
is the frequency of the wave = 140 Hz
The result will be expressed in seconds, so let's multiply by 1000 to get miliseconds:
1 / 140 Hz * 1000
= 7.14 ms.