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Speclore

Speed Sound

Reference data and engineering information about speed sound for acoustics applications.

speedsound

Overview

Engineering reference data for Speed Sound in acoustics.

Key Formulas

Speed of Sound

c=γRTc = \sqrt{\gamma R T}

Speed of sound in an ideal gas.

Sound Level

L=10log10(I/I0)L = 10 \log_{10}(I/I_0)

Decibel level.

Wavelength

λ=c/f\lambda = c / f

Wavelength = speed / frequency.

Variables

SymbolDescriptionUnit
ccSpeed of soundm/s
LLSound leveldB
λ\lambdaWavelengthm
ffFrequencyHz
4 rows
Bulk Modulus and Density of Common Substances at 1 bar and 0 oC (except Water at 10 oC)
Substance
Bulk Modulus (10^9 N/m^2)(10^9 N/m^2)
Density (kg/m^3)(kg/m^3)
Water (10 oC)2.09999.7
Oil1.35920
Ethyl Alcohol1.06810
Mercury28.513595

Source: engineeringtoolbox.com

Examples of Speed of Sound Calculations

In Air (Ideal Gas)

Using c=kRTc = \sqrt{k R T}, where k=1.4k = 1.4 and R=286.9J/(kg K)R = 286.9 \, \text{J/(kg K)} for air:

  • At 0°C (273.15 K): c=1.4×286.9×273.15=331.2m/sc = \sqrt{1.4 \times 286.9 \times 273.15} = 331.2 \, \text{m/s}
  • At 20°C (293.15 K): c=1.4×286.9×293.15=343.1m/sc = \sqrt{1.4 \times 286.9 \times 293.15} = 343.1 \, \text{m/s}

In Water

Using c=Kρc = \sqrt{\frac{K}{\rho}}:

For water at 1

Interactive Charts

sound velocity

References