7,460 Hz Wavelength

How Long Is a 7460 Hz Wavelength?

A 7460 Hz sound wave has a wavelength of 0.05 meters, 4.6 cm, 0.15 feet (0 feet and 1.81 inches) or 1.81 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 = 7460 Hz
which gives a wavelength λ of 0.05 meters, or 0.15 feet.

7460 Hz Wavelength Depending on Temperature

The speed of sound in air depends on temperature. Here is how the wavelenght of a 7460 Hz sound wave will vary according to temperature:

Temp (°C) Temp (°F) 7460 Hz wavelength (cm)7460 Hz wavelength (in)
-40-404.10301.6153
-35-314.14671.6326
-30-224.19001.6496
-25-134.23291.6665
-20-44.27531.6832
-1554.31741.6997
-10144.35901.7161
-5234.40021.7324
0324.44101.7484
5414.48151.7644
10504.52161.7801
15594.56131.7958
20684.60071.8113
25774.63981.8267
30864.67851.8419
35954.71701.8571
401044.75511.8721

7460 Hz Half Wavelength and Standing Waves

The half wavelength of a 7460 Hz sound wave is 0.02 meters, 2.3 cm, 0.08 feet (0 feet and 0.91 inches) or 0.91 inches when travelling in air at 20°C (68°F).

Modes (or standing waves) will occur at 7460 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 7460 Hz wavelength = 0.05 meters, or 0.15 feet in air at 20°C (68°F).

7460 Hz Standing Waves Distances

n Distance (m) Distance (ft)
10.020.08
20.050.15
30.070.23
40.090.30
50.120.38

We typically don't treat rooms for standing waves above 300 Hz.

Given the relatively small 7460 Hz half wavelength, you can treat your room by using thick acoustic foam. This will absorb frequencies as low as 250 Hz, and all the way up to 20,000 Hz.

How To Convert 7460 Hz To ms

A Hz (Hertz) is a cycle (or period) per second.

Because a 7460 Hz wave will ocillate 7460 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 = 7460 Hz

The result will be expressed in seconds, so let's multiply by 1000 to get miliseconds:

1 / 7460 Hz * 1000 = 0.13 ms.