Speeds of sound of the elements explained

The speed of sound in any chemical element in the fluid phase has one temperature-dependent value. In the solid phase, different types of sound wave may be propagated, each with its own speed: among these types of wave are longitudinal (as in fluids), transversal, and (along a surface or plate) extensional.[1]

Speed of sound, solid phase

longitudinal, m/s transversal, m/s extensional, m/s notes
<-- 3 Li --> 3 Li lithium
use 6000 20 °C
WEL 6000
<-- 4 Be --> 4 Be beryllium
use 12890 8880 12870 room temperature
CRC 12890 8880 12870
WEL 13000
<-- 5 B --> 5 B boron
use 16200 20 °C
WEL 16200
<-- 6 C --> 6 C carbon
use
WEL 18350
<-- 11 Na --> 11 Na sodium
use 3200 20 °C
WEL 3200
<-- 12 Mg --> 12 Mg magnesium
use 5770 3050 4940 room temperature, annealed
CRC 5770 3050 4940 annealed
WEL 4602
<-- 13 Al --> 13 Al aluminium
use 6420 3040 5000 room temperature, rolled
CRC 6420 3040 5000 rolled
WEL 5100
<-- 14 Si --> 14 Si silicon
use 8433 5843
Cij 8433 5843 from C11=165.64 GPa, C44=79.51 GPa, ro1=2.329 g/cm3[2]
WEL 2200 20 °C - note: probably wrong (see talk)
<-- 19 K --> 19 K potassium
use 2000 20 °C
WEL 2000
<-- 20 Ca --> 20 Ca calcium
use 3810 20 °C
WEL 3810
<-- 22 Ti --> 22 Ti titanium
use 6070 3125 5090 room temperature
CRC 6070 3125 5090
WEL 4140
<-- 23 V --> 23 V vanadium
use 4560 20 °C
WEL 4560
<-- 24 Cr --> 24 Cr chromium
use 6608 4005 5940 20 °C
WEL 5940
<-- 25 Mn --> 25 Mn manganese
use 5150 20 °C
WEL 5150
<-- 26 Fe --> 26 Fe iron
use 5950 3240 5120 room temperature, electrolytic
CRC 4994 2809 4480 cast
CRC 5950 3240 5120 electrolytic
CRC 5960 3240 5200 Armco
WEL 4910
<-- 27 Co --> 27 Co cobalt
use 4720 20 °C
WEL 4720
<-- 28 Ni --> 28 Ni nickel
use 6040 3000 4900 room temperature
CRC 6040 3000 4900
WEL 4970
<-- 29 Cu --> 29 Cu copper
use 4760 2325 3810 room temperature, annealed
CRC 4760 2325 3810 annealed
CRC 5010 2270 3750 rolled
WEL 3570
<-- 30 Zn --> 30 Zn zinc
use 4210 2440 3850 room temperature, rolled
CRC 4210 2440 3850 rolled
WEL 3700
<-- 31 Ga --> 31 Ga gallium
use 2740 20 °C
WEL 2740
<-- 32 Ge --> 32 Ge germanium
use 5400 20 °C
WEL 5400
<-- 34 Se --> 34 Se selenium
use 3350 20 °C
WEL 3350
<-- 37 Rb --> 37 Rb rubidium
use 1300 20 °C
WEL 1300
<-- 39 Y --> 39 Y yttrium
use 3300 20 °C
WEL 3300
<-- 40 Zr --> 40 Zr zirconium
use 3800 20 °C
WEL 3800
<-- 41 Nb --> 41 Nb niobium
use 3480 20 °C
WEL 3480
<-- 42 Mo --> 42 Mo molybdenum
use 6250 3350 5400 room temperature
CRC 6250 3350 5400
WEL 6190
<-- 44 Ru --> 44 Ru ruthenium
use 5970 20 °C
WEL 5970
<-- 45 Rh --> 45 Rh rhodium
use 4700 20 °C
WEL 4700
<-- 46 Pd --> 46 Pd palladium
use 3070 20 °C
WEL 3070
<-- 47 Ag --> 47 Ag silver
use 3650 1610 2680 room temperature
CRC 3650 1610 2680
WEL 2600
<-- 48 Cd --> 48 Cd cadmium
use 2310 20 °C
WEL 2310
<-- 49 In --> 49 In indium
use 1215 20 °C
WEL 1215
<-- 50 Sn --> 50 Sn tin
use 3320 1670 2730 room temperature, rolled
CRC 3320 1670 2730 rolled
WEL 2500
<-- 51 Sb --> 51 Sb antimony
use 3420 20 °C
WEL 3420
<-- 52 Te --> 52 Te tellurium
use 2610 20 °C
WEL 2610
<-- 56 Ba --> 56 Ba barium
use 1620 20 °C
WEL 1620
<-- 57 La --> 57 La lanthanum
use 2475 20 °C
WEL 2475
<-- 58 Ce --> 58 Ce cerium
use 2100 20 °C
WEL 2100
<-- 59 Pr --> 59 Pr praseodymium
use 2280 20 °C
WEL 2280
<-- 60 Nd --> 60 Nd neodymium
use 2330 20 °C
WEL 2330
<-- 62 Sm --> 62 Sm samarium
use 2130 20 °C
WEL 2130
<-- 64 Gd --> 64 Gd gadolinium
use 2680 20 °C
WEL 2680
<-- 65 Tb --> 65 Tb terbium
use 2620 20 °C
WEL 2620
<-- 66 Dy --> 66 Dy dysprosium
use 2710 20 °C
WEL 2710
<-- 67 Ho --> 67 Ho holmium
use 2760 20 °C
WEL 2760
<-- 68 Er --> 68 Er erbium
use 2830 20 °C
WEL 2830
<-- 70 Yb --> 70 Yb ytterbium
use 1590 20 °C
WEL 1590
<-- 72 Hf --> 72 Hf hafnium
use 3010 20 °C
WEL 3010
<-- 73 Ta --> 73 Ta tantalum
use 3400 20 °C
WEL 3400
<-- 74 W --> 74 W tungsten
use 5220 2890 4620 room temperature, annealed
CRC 5220 2890 4620 annealed
CRC 5410 2640 4320 drawn
WEL 5174
<-- 75 Re --> 75 Re rhenium
use 4700 20 °C
WEL 4700
<-- 76 Os --> 76 Os osmium
use 4940 20 °C
WEL 4940
<-- 77 Ir --> 77 Ir iridium
use 4825 20 °C
WEL 4825
<-- 78 Pt --> 78 Pt platinum
use 3830 1680 2800 room temperature. Calculated using Wikipedia reported values for density (21450 kg/m3), Young's Modulus (167 GPa), and Poisson's ratio (0.38)
CRC 3260 1730 2800 CRC cites American Institute of Physics Handbook (AIPH) table 3f-2 for this value, but in AIPH table 2f-6 there are elastic constants reported that yield 3700,1570, 2620
WEL 2680
AIPH 3700 1570 2620 Table 2f-6. Calculated from Young's modulus of 147 GPa (lower than commonly accepted for Platinum), Poisson's ratio of 0.39, density of 21370 kg/m3
<-- 79 Au --> 79 Au gold
use 3240 1200 2030 room temperature, hard-drawn
CRC 3240 1200 2030 hard-drawn
WEL 1740
<-- 81 Tl --> 81 Tl thallium
use 818 20 °C
WEL 818
<-- 82 Pb --> 82 Pb lead
use 2160 700 1190 room temperature, annealed
CRC 2160 700 1190 annealed
CRC 1960 690 1210 rolled
WEL 1260
<-- 83 Bi --> 83 Bi bismuth
use 1790 20 °C
WEL 1790
<-- 90 Th --> 90 Th thorium
use 2490 20 °C
WEL 2490
<-- 92 U --> 92 U uranium
use 3155 20 °C
WEL 3155
<-- 94 Pu --> 94 Pu plutonium
use 2260 20 °C
WEL 2260

Speed of sound, fluid phases

m/s notes
<-- 1 H --> 1 H hydrogen (gas)
use 1310 27 °C
CRC 1310 27 °C
WEL 1270
Zuckerwar 1270 20 °C, 1 atm
CRC 890 deuterium, 0 °C
<-- 1 H --> 1 H hydrogen (liquid)
use 1101 −252.9 °C
CRC 1101 −252.9 °C
<-- 2 He --> 2 He helium (gas)
use 965 0 °C
CRC 965 0 °C
Zuckerwar 1007 20 °C, 1 atm
WEL 970
<-- 2 He --> 2 He helium (liquid)
use 180 −268.9 °C
CRC 180 −268.9 °C
<-- 7 N --> 7 N nitrogen (gas)
use 353 27 °C
CRC 353 27 °C
Zuckerwar 349 20 °C, 1 atm
WEL 333.6
<-- 7 N --> 7 N nitrogen (liquid)
use 939 −195.8 °C
CRC 939 −195.8 °C
<-- 8 O --> 8 O oxygen (gas)
use 330 27 °C
CRC 330 27 °C
Zuckerwar 326 20 °C, 1 atm
WEL 317.5
<-- 8 O --> 8 O oxygen (liquid)
use 906 −183.0 °C
CRC 906 −183.0 °C
<-- 10 Ne --> 10 Ne neon (gas)
use 435 0 °C
CRC 435 0 °C
WEL 936 (presumably for liquid?)
<-- 17 Cl --> 17 Cl chlorine (gas)
use 206 0 °C
CRC 206 0 °C
WEL 206
<-- 18 Ar --> 18 Ar argon (gas)
use 323 27 °C
CRC 323 27 °C
Zuckerwar 319 20 °C, 1 atm
WEL 319
<-- 18 Ar --> 18 Ar argon (liquid)
use 813 −185.9 °C
CRC 813 −185.9 °C
<-- 36 Kr --> 36 Kr krypton (gas)
use 221 20 °C
Zuckerwar 221 20 °C, 1 atm
220 ± 1, prelim. experimental value 23 °C, 101.3 kPa
<-- 36 Kr --> 36 Kr krypton (liquid)
use 1120
88RAB 1120
WEL 1120
<-- 54 Xe --> 54 Xe xenon (gas)
use 178 20 °C, 1 atm
Zuckerwar 178 20 °C, 1 atm
<-- 54 Xe --> 54 Xe xenon (liquid)
use 1090
88RAB 1090
WEL 1090
<-- 80 Hg --> 80 Hg mercury (liquid)
use 1451.4 20 °C
CR2 1460.8 0 °C
CR2 1451.4 20 °C
CRC 1450 25 °C
WEL 1407

Notes

Sources

WEL

As quoted at http://www.webelements.com/ from this source:

CRC

As quoted from various sources in an online version of:

CR2

As quoted from this source in an online version of: David R. Lide (ed), CRC Handbook of Chemistry and Physics, 84th Edition. CRC Press. Boca Raton, Florida, 2003; Section 6, Fluid Properties; Thermal Properties of Mercury

APIH

Dwight E. Gray (ed), American Institute of Physics Handbook. McGraw-Hill. Boca Raton, Florida, New York, 1957.

Other

Notes and References

  1. Web site: Modes of Sound Wave Propagation . NDT Resource Center . 26 January 2019.
  2. 10.1109/JMEMS.2009.2039697 . 19 . 2 . What is the Young's Modulus of Silicon? . . 229–238. 2010 . Hopcroft . Matthew A. . Nix . William D. . Kenny . Thomas W. . 2545990 .

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