Water (data page)
This page provides supplementary data of the properties of water.
Further comprehensive authoritative data can be found at the NIST Webbook page on thermophysical properties of fluids.
Structure and properties
Structure and properties | |
---|---|
Index of refraction, nD | 1.333 at 20 °C |
Dielectric constant[1] | 88.00 ε0 at 0 °C 86.04 ε0 at 5 °C 84.11 ε0 at 10 °C 82.22 ε0 at 15 °C 80.36 ε0 at 20 °C 78.54 ε0 at 25 °C 76.75 ε0 at 30 °C 75.00 ε0 at 35 °C 73.28 ε0 at 40 °C 71.59 ε0 at 45 °C 69.94 ε0 at 50 °C 66.74 ε0 at 60 °C 63.68 ε0 at 70 °C 60.76 ε0 at 80 °C 57.98 ε0 at 90 °C 55.33 ε0 at 100 °C |
Bond strength | 492.215 kJ/mol O–H bond dissociation energy[2] |
Bond length | 95.87 pm (equilibrium)[3] |
Bond angle | 104.4776° (equilibrium) [4][5] |
Magnetic susceptibility | −9.04 × 10−6 volume SI units[6] |
Thermodynamic properties
Phase behavior | |
---|---|
Triple point | 273.16 K (0.01 °C), 611.73 Pa |
Critical point | 647 K (374 °C), 22.1 MPa |
Std enthalpy change of fusion, ΔfusH |
6.01 kJ/mol |
Std entropy change of fusion, ΔfusS |
22.0 J/(mol·K) |
Std enthalpy change of vaporization, ΔvapH |
40.68 kJ/mol |
Std entropy change of vaporization, ΔvapS |
118.89 J/(mol·K) |
Std enthalpy change of sublimation, ΔsubH |
46.70 kJ/mol |
Std entropy change of sublimation, ΔsubS |
130.9 J/(mol·K) |
Molal freezing point constant | −1.858 °C kg/mol |
Molal boiling point constant | 0.512 °C kg/mol |
Solid properties | |
Std enthalpy change of formation, ΔfH |
−291.83 kJ/mol |
Standard molar entropy, S |
41 J/(mol K) |
Heat capacity, cp | 12.2 J/(mol K) at −200 °C 15.0 J/(mol K) at −180 °C 17.3 J/(mol K) at −160 °C 19.8 J/(mol K) at −140 °C 24.8 J/(mol K) at −100 °C 29.6 J/(mol K) at −60 °C 32.77 J/(mol K) at −38.3 °C 33.84 J/(mol K) at −30.6 °C 35.20 J/(mol K) at −20.8 °C 36.66 J/(mol K) at −11.0 °C 37.19 J/(mol K) at −4.9 °C 37.84 J/(mol K) at −2.2 °C |
Liquid properties | |
Std enthalpy change of formation, ΔfH |
−285.83 kJ/mol |
Standard molar entropy, S |
69.95 J/(mol K) |
Heat capacity, cp | 75.97 J/(mol K) at 0 °C 75.42 J/(mol K) at 10 °C 75.33 J/(mol K) at 20 °C 75.28 J/(mol K) at 25 °C 75.26 J/(mol K) at 30 °C 75.26 J/(mol K) at 40 °C 75.30 J/(mol K) at 50 °C 75.37 J/(mol K) at 60 °C 75.46 J/(mol K) at 70 °C 75.58 J/(mol K) at 80 °C 75.74 J/(mol K) at 90 °C 75.94 J/(mol K) at 100 °C |
Gas properties | |
Std enthalpy change of formation, ΔfH |
−241.83 kJ/mol |
Standard molar entropy, S |
188.84 J/(mol K) |
Heat capacity, cp | 36.5 J/(mol K) at 100 °C 36.1 J/(mol K) at 200 °C 36.2 J/(mol K) at 400 °C 37.9 J/(mol K) at 700 °C 41.4 J/(mol K) at 1000 °C |
Heat capacity, cv | 27.5 J/(mol K) at 100 °C 27.6 J/(mol K) at 200 °C 27.8 J/(mol K) at 400 °C 29.5 J/(mol K) at 700 °C 33.1 J/(mol K) at 1000 °C |
Heat capacity ratio, γ = cp/cv |
1.324 at 100 °C 1.310 at 200 °C 1.301 at 400 °C 1.282 at 700 °C 1.252 at 1000 °C |
van der Waals' constants | a = 553.6 L2 kPa/mol2 b = 0.03049 liter per mole |
Liquid physical properties
Velocity of sound in water | |
---|---|
c in distilled water at 25 °C | 1498 m/s |
c at other temperatures[7] | 1403 m/s at 0 °C 1427 m/s at 5 °C 1447 m/s at 10 °C 1481 m/s at 20 °C 1507 m/s at 30 °C 1526 m/s at 40 °C 1541 m/s at 50 °C 1552 m/s at 60 °C 1555 m/s at 70 °C 1555 m/s at 80 °C 1550 m/s at 90 °C 1543 m/s at 100 °C |
Density[8] | |
0.99984 g/cm3 at 0 °C | 0.98804 g/cm3 at 50 °C |
0.99997 g/cm3 at 4 °C | 0.98570 g/cm3 at 55 °C |
0.99996 g/cm3 at 5 °C | 0.98321 g/cm3 at 60 °C |
0.99970 g/cm3 at 10 °C | 0.98056 g/cm3 at 65 °C |
0.99910 g/cm3 at 15 °C | 0.97778 g/cm3 at 70 °C |
0.99820 g/cm3 at 20 °C | 0.97486 g/cm3 at 75 °C |
0.99704 g/cm3 at 25 °C | 0.97180 g/cm3 at 80 °C |
0.99564 g/cm3 at 30 °C | 0.96862 g/cm3 at 85 °C |
0.99403 g/cm3 at 35 °C | 0.96531 g/cm3 at 90 °C |
0.99221 g/cm3 at 40 °C | 0.96189 g/cm3 at 95 °C |
0.99022 g/cm3 at 45 °C | 0.95835 g/cm3 at 100 °C |
Viscosity[9] | |
η = 1.7921 mPa·s (cP) at 0 °C | η = 0.5494 mPa·s at 50 °C |
η = 1.5188 mPa·s at 5 °C | η = 0.5064 mPa·s at 55 °C |
η = 1.3077 mPa·s at 10 °C | η = 0.4688 mPa·s at 60 °C |
η = 1.1404 mPa·s at 15 °C | η = 0.4355 mPa·s at 65 °C |
η = 1.0050 mPa·s at 20 °C | η = 0.4061 mPa·s at 70 °C |
η = 0.8937 mPa·s at 25 °C | η = 0.3799 mPa·s at 75 °C |
η = 0.8007 mPa·s at 30 °C | η = 0.3635 mPa·s at 80 °C |
η = 0.7225 mPa·s at 35 °C | η = 0.3355 mPa·s at 85 °C |
η = 0.6560 mPa·s at 40 °C | η = 0.3165 mPa·s at 90 °C |
η = 0.5988 mPa·s at 45 °C | η = 0.2994 mPa·s at 95 °C |
η = 0.2838 mPa·s at 100 °C | |
Surface tension[10] | |
75.64 dyn/cm at 0 °C | 69.56 dyn/cm at 40 °C |
74.92 dyn/cm at 5 °C | 68.74 dyn/cm at 45 °C |
74.22 dyn/cm at 10 °C | 67.91 dyn/cm at 50 °C |
73.49 dyn/cm at 15 °C | 66.18 dyn/cm at 60 °C |
72.75 dyn/cm at 20 °C | 64.42 dyn/cm at 70 °C |
71.97 dyn/cm at 25 °C | 62.61 dyn/cm at 80 °C |
71.18 dyn/cm at 30 °C | 60.75 dyn/cm at 90 °C |
70.38 dyn/cm at 35 °C | 58.85 dyn/cm at 100 °C |
Temperature, °C | Conductivity, μS/m |
---|---|
0.01 | 1.15 |
25 | 5.50 |
100 | 76.5 |
200 | 299 |
300 | 241 |
Water/steam equilibrium properties
Vapor pressure formula for steam in equilibrium with liquid water:[12]
- log10(P) = A − B / (T – C)
where P is equilibrium vapor pressure in kPa, and T is temperature in kelvins.
for T = 273 K to 333 K: A = 7.2326; B = 1750.286; C = 38.1
for T = 333 K to 423 K: A = 7.0917; B = 1668.21; C = 45.1
Steam table[13] | |||||
---|---|---|---|---|---|
Temp. | Pressure | H of liquid | ΔvapH | ΔvapW | ρ of vapor |
0 °C | 0.612 kPa | 0.00 J/g | 2496.5 J/g | 126.0 J/g | 0.004845 kg/m3 |
10 °C | 1.227 kPa | 42.0 J/g | 2473.5 J/g | 130.5 J/g | 0.009398 kg/m3 |
20 °C | 2.536 kPa | 83.8 J/g | 2450.9 J/g | 135.1 J/g | 0.01728 kg/m3 |
30 °C | 4.242 kPa | 125.6 J/g | 2427.9 J/g | 139.7 J/g | 0.03036 kg/m3 |
40 °C | 7.370 kPa | 167.2 J/g | 2404.9 J/g | 144.2 J/g | 0.05107 kg/m3 |
50 °C | 12.33 kPa | 209.0 J/g | 2381.4 J/g | 148.7 J/g | 0.08285 kg/m3 |
60 °C | 19.90 kPa | 250.8 J/g | 2357.6 J/g | 153.0 J/g | 0.1300 kg/m3 |
70 °C | 31.15 kPa | 292.7 J/g | 2332.9 J/g | 157.3 J/g | 0.1979 kg/m3 |
80 °C | 46.12 kPa | 334.6 J/g | 2307.7 J/g | 161.5 J/g | 0.2931 kg/m3 |
90 °C | 70.10 kPa | 376.6 J/g | 2282.6 J/g | 165.5 J/g | 0.4232 kg/m3 |
100 °C | 101.32 kPa | 419.0 J/g | 2256.3 J/g | 169.4 J/g | 0.5974 kg/m3 |
110 °C | 143.27 kPa | 460.8 J/g | 2229.5 J/g | 173.1 J/g | 0.8264 kg/m3 |
120 °C | 198.50 kPa | 503.2 J/g | 2201.4 J/g | 176.7 J/g | 1.121 kg/m3 |
130 °C | 270.13 kPa | 545.8 J/g | 2172.5 J/g | 180.2 J/g | 1.497 kg/m3 |
140 °C | 361.4 kPa | 588.5 J/g | 2142.8 J/g | 183.2 J/g | 1.967 kg/m3 |
150 °C | 476.0 kPa | 631.5 J/g | 2111.8 J/g | 186.1 J/g | 2.548 kg/m3 |
160 °C | 618.1 kPa | 674.7 J/g | 2080.0 J/g | 188.7 J/g | 3.263 kg/m3 |
170 °C | 792.0 kPa | 718.5 J/g | 2047.0 J/g | 190.6 J/g | 4.023 kg/m3 |
180 °C | 1002.7 kPa | 762.5 J/g | 2012.2 J/g | 192.8 J/g | 5.165 kg/m3 |
190 °C | 1254.9 kPa | 807.0 J/g | 1975.8 J/g | 194.5 J/g | 6.402 kg/m3 |
200 °C | 1554.3 kPa | 851.9 J/g | 1937.3 J/g | 195.6 J/g | 7.868 kg/m3 |
210 °C | 1907.9 kPa | 897.5 J/g | 1897.5 J/g | 196.3 J/g | 9.606 kg/m3 |
221.1 °C | 2369.8 kPa | 948.5 J/g | 1850.2 J/g | 196.6 J/g | 11.88 kg/m3 |
229.4 °C | 2769.6 kPa | 987.9 J/g | 1812.5 J/g | 196.2 J/g | 13.87 kg/m3 |
240.6 °C | 3381.1 kPa | 1040.6 J/g | 1759.4 J/g | 195.1 J/g | 16.96 kg/m3 |
248.9 °C | 3904.1 kPa | 1080.3 J/g | 1715.8 J/g | 193.7 J/g | 19.66 kg/m3 |
260.0 °C | 4695.9 kPa | 1134.8 J/g | 1653.9 J/g | 190.8 J/g | 23.84 kg/m3 |
271.1 °C | 5603.4 kPa | 1195.9 J/g | 1586.5 J/g | 186.9 J/g | 28.83 kg/m3 |
279.4 °C | 6366.5 kPa | 1240.7 J/g | 1532.5 J/g | 183.3 J/g | 33.18 kg/m3 |
290.6 °C | 7506.2 kPa | 1302.3 J/g | 1456.3 J/g | 177.4 J/g | 39.95 kg/m3 |
298.9 °C | 8463.9 kPa | 1350.0 J/g | 1394.8 J/g | 172.2 J/g | 45.93 kg/m3 |
310.0 °C | 9878.0 kPa | 1415.7 J/g | 1307.7 J/g | 164.2 J/g | 55.25 kg/m3 |
321.1 °C | 11461 kPa | 1483.9 J/g | 1212.7 J/g | 154.5 J/g | 66.58 kg/m3 |
329.4 °C | 12785 kPa | 1537.9 J/g | 1133.2 J/g | 145.6 J/g | 76.92 kg/m3 |
340.6 °C | 14727 kPa | 1617.9 J/g | 1007.6 J/g | 130.9 J/g | 94.25 kg/m3 |
348.9 °C | 16331 kPa | 1687.0 J/g | 892.0 J/g | 117.0 J/g | 111.5 kg/m3 |
360.0 °C | 18682 kPa | 1797.0 J/g | 694.0 J/g | 91.0 J/g | 145.3 kg/m3 |
371.1 °C | 21349 kPa | 1968.3 J/g | 365.0 J/g | 47.0 J/g | 214.5 kg/m3 |
374.4 °C | 22242 kPa | 2151.2 J/g | 0 J/g | 0 J/g | 306.8 kg/m3 |
Temp. | Pressure | H of liquid | ΔvapH | ΔvapW | ρ of vapor |
Data in the table above is given for water-steam equilibria at various temperatures over the entire temperature range at which liquid water can exist. Pressure of the equilibrium is given in the second column in kPa. The third column is the heat content of each gram of the liquid phase relative to water at 0 °C. The fourth column is the heat of vaporization of each gram of liquid that changes to vapor. The fifth column is the PV work done by each gram of liquid that changes to vapor. The sixth column is the density of the vapor.
Melting point of ice at various pressures
Data obtained from CRC Handbook of Chemistry and Physics 44th ed., p. 2390
Pressure kPa | Temp. °C |
101.325 | 0.0 |
32950 | −2.5 |
60311 | −5.0 |
87279 | −7.5 |
113267 | −10.0 |
138274 | −12.5 |
159358 | −15.0 |
179952 | −17.5 |
200251 | −20.0 |
215746 | −22.1 |
Table of various forms of ice
Properties of various forms of ice[14] | |||||
---|---|---|---|---|---|
Ice form | Density g/cm3 | Crystal structure | Triple points | TP temp °C | TP pressure MPa |
Ih | 0.92 | hexagonal | Lq, Vap, Ih | 0.01 | 0.000612 |
Lq, Ih, III | −22.0 | 207.5 | |||
Ih, II, III | −34.7 | 212.9 | |||
Ic | 0.92 | cubic | |||
II | 1.17 | rhombohedral | Ih, II, III | −34.7 | 212.9 |
II, III, V | −24.3 | 344.3 | |||
II, V, VI | −55 (est) | 620 | |||
III | 1.14 | tetragonal | Lq, Ih, III | −22.0 | 207.5 |
Lq, III, V | −17 | 346.3 | |||
Ih, II, III | −34.7 | 212.9 | |||
II, III, V | −24.3 | 344.3 | |||
IV | 1.27 | rhombohedral | |||
V | 1.23 | monoclinic | Lq, III, V | −17 | 346.3 |
Lq, V, VI | 0.16 | 625.9 | |||
II, III, V | −24.3 | 344.3 | |||
II, V, VI | −55 (est) | 620 | |||
VI | 1.31 | tetragonal | Lq, V, VI | 0.16 | 625.9 |
Lq, VI, VII | 81.6 | 2200 | |||
II, V, VI | −55 (est) | 620 | |||
VI, VII, VIII | ≈5 | 2100 | |||
VII | 1.50 | cubic | Lq, VI, VII | 81.6 | 2200 |
VI, VII, VIII | ≈5 | 2100 | |||
VII, VIII, X | −173 | 62000 | |||
VIII | 1.46 | tetragonal | VI, VII, VIII | ≈5 | 2100 |
VII, VIII, X | −173 | 62000 | |||
IX | 1.16 | tetragonal | |||
X | 2.46 | cubic | VII, VIII, X | −173 | 62000 |
XI‡ | 0.92 | orthorhombic | Vap, Ih, XI | −201.5 | 0 (expected) |
XII | 1.29 | tetragonal | |||
XIII | 1.23 | monoclinic | |||
XIV | 1.29 | orthorhombic | |||
‡Ice XI triple point is theoretical and has never been obtained
Phase diagram
Water with dissolved NaCl
NaCl, wt% | Teq, °C | ρ, g/cm3 | n | η, mPa·s |
---|---|---|---|---|
0 | 0 | 0.99984 | 1.333 | 1.002 |
0.5 | −0.3 | 1.0018 | 1.3339 | 1.011 |
1 | −0.59 | 1.0053 | 1.3347 | 1.02 |
2 | −1.19 | 1.0125 | 1.3365 | 1.036 |
3 | −1.79 | 1.0196 | 1.3383 | 1.052 |
4 | −2.41 | 1.0268 | 1.34 | 1.068 |
5 | −3.05 | 1.034 | 1.3418 | 1.085 |
6 | −3.7 | 1.0413 | 1.3435 | 1.104 |
7 | −4.38 | 1.0486 | 1.3453 | 1.124 |
8 | −5.08 | 1.0559 | 1.347 | 1.145 |
9 | −5.81 | 1.0633 | 1.3488 | 1.168 |
10 | −6.56 | 1.0707 | 1.3505 | 1.193 |
12 | −8.18 | 1.0857 | 1.3541 | 1.25 |
14 | −9.94 | 1.1008 | 1.3576 | 1.317 |
16 | −11.89 | 1.1162 | 1.3612 | 1.388 |
18 | −14.04 | 1.1319 | 1.3648 | 1.463 |
20 | −16.46 | 1.1478 | 1.3684 | 1.557 |
22 | −19.18 | 1.164 | 1.3721 | 1.676 |
23.3 | −21.1 | |||
23.7 | −17.3 | |||
24.9 | −11.1 | |||
26.1 | −2.7 | |||
26.28 | 0 | |||
26.32 | 10 | |||
26.41 | 20 | |||
26.45 | 25 | |||
26.52 | 30 | |||
26.67 | 40 | |||
26.84 | 50 | |||
27.03 | 60 | |||
27.25 | 70 | |||
27.5 | 80 | |||
27.78 | 90 | |||
28.05 | 100 |
Note: ρ is density, n is refractive index at 589 nm and η is viscosity, all at 20 °C; Teq is the equilibrium temperature between two phases: ice/liquid solution for Teq < 0-0.1 and NaCl/liquid solution for Teq above 0.1 °C.
Self ionization
°C | −35 | 0 | 25 | 60 | 300 (~50 MPa) | |
---|---|---|---|---|---|---|
pKw[16] | 17 | 14.9 | 14.0 | 13.0 | 12 |
Spectral data
UV-Vis | ||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
λmax | ? nm | |||||||||||||||
Extinction coefficient, ε | ? | |||||||||||||||
IR | ||||||||||||||||
Major absorption bands[17] |
| |||||||||||||||
NMR | ||||||||||||||||
Proton NMR | 4.79 ppm in D2O ; 1.56 ppm in CDCl3 ; 0.40 ppm in C6D6 ; 4.87 in CD3OD[18] | |||||||||||||||
Carbon-13 NMR | N/A | |||||||||||||||
Other NMR data | ||||||||||||||||
MS | ||||||||||||||||
Masses of main fragments |
||||||||||||||||
Additional data translated from German "Wasser (Stoffdaten)" page
The data that follows was copied and translated from the German language Wikipedia version of this page (which has moved to here). It provides supplementary physical, thermodynamic, and vapor pressure data, some of which is redundant with data in the tables above, and some of which is additional.
Physical and thermodynamic tables
In the following tables, values are temperature dependent and to a lesser degree pressure dependent, and are arranged by state of aggregation (s=solid, lq=liquid, g=gas), which are clearly a function of temperature and pressure. All of the data were computed from data given in "Formulation of the Thermodynamic Properties of Ordinary Water Substance for Scientific and General Use" (1984). This applies to:
- T – temperature in degrees Celsius
- V – specific volume in decimeter3 per kilogram (1 dm3 is equivalent to 1 liter)
- H – specific enthalpy in kJ per kilogram
- U – specific internal energy in kJ per kilogram
- S – specific entropy in kJ per kilogram-kelvin
- cp – specific heat capacity at constant pressure in kJ per kilogram-kelvin
- γ – Thermal expansion coefficient as 10−3 per kelvin
- λ – Heat conductivity in milliwatt per meter-kelvin
- η – Viscosity in micropascal-seconds (1 cP = 1000 µPa·s)
- σ – surface tension in millinewtons per meter (equivalent to dyn/cm)
Standard conditions
In the following table, material data are given for standard pressure of 0.1 MPa (equivalent to 1 bar). Up to 99.63 °C (the boiling point of water at 0.1 MPa), at this pressure water exists as a liquid. Above that, it exists as water vapor. Note that the boiling point of 100.0 °C is at a pressure of 0.101325 MPa (1 atm), which is the average atmospheric pressure.
Water/steam data table at standard pressure (0.1 MPa) | ||||||||||
T °C | V dm3/kg |
H kJ/kg |
U kJ/kg |
S kJ/(kg·K) |
cp kJ/(kg·K) |
γ 10−3/K |
λ mW / (m·K) |
η µPa·s |
σ ‡ mN/m | |
0 | lq | 1.0002 | 0.06 | −0.04 | −0.0001 | 4.228 | −0.080 | 561.0 | 1792 | 75.65 |
5 | 1.0000 | 21.1 | 21.0 | 0.076 | 4.200 | 0.011 | 570.6 | 1518 | 74.95 | |
10 | 1.0003 | 42.1 | 42.0 | 0.151 | 4.188 | 0.087 | 580.0 | 1306 | 74.22 | |
15 | 1.0009 | 63.0 | 62.9 | 0.224 | 4.184 | 0.152 | 589.4 | 1137 | 73.49 | |
20 | 1.0018 | 83.9 | 83.8 | 0.296 | 4.183 | 0.209 | 598.4 | 1001 | 72.74 | |
25 | 1.0029 | 104.8 | 104.7 | 0.367 | 4.183 | 0.259 | 607.2 | 890.4 | 71.98 | |
30 | 1.0044 | 125.8 | 125.7 | 0.437 | 4.183 | 0.305 | 615.5 | 797.7 | 71.20 | |
35 | 1.0060 | 146.7 | 146.6 | 0.505 | 4.183 | 0.347 | 623.3 | 719.6 | 70.41 | |
40 | 1.0079 | 167.6 | 167.5 | 0.572 | 4.182 | 0.386 | 630.6 | 653.3 | 69.60 | |
45 | 1.0099 | 188.5 | 188.4 | 0.638 | 4.182 | 0.423 | 637.3 | 596.3 | 68.78 | |
50 | 1.0121 | 209.4 | 209.3 | 0.704 | 4.181 | 0.457 | 643.6 | 547.1 | 67.95 | |
60 | 1.0171 | 251.2 | 251.1 | 0.831 | 4.183 | 0.522 | 654.4 | 466.6 | 66.24 | |
70 | 1.0227 | 293.1 | 293.0 | 0.955 | 4.187 | 0.583 | 663.1 | 404.1 | 64.49 | |
80 | 1.0290 | 335.0 | 334.9 | 1.075 | 4.194 | 0.640 | 670.0 | 354.5 | 62.68 | |
90 | 1.0359 | 377.0 | 376.9 | 1.193 | 4.204 | 0.696 | 675.3 | 314.6 | 60.82 | |
99.63 | lq | 1.0431 | 417.5 | 417.4 | 1.303 | 4.217 | 0.748 | 679.0 | 283.0 | 58.99 |
g | 1694.3 | 2675 | 2505 | 7.359 | 2.043 | 2.885 | 25.05 | 12.26 | – | |
100 | g | 1696.1 | 2675 | 2506 | 7.361 | 2.042 | 2.881 | 25.08 | 12.27 | 58.92 |
200 | 2172.3 | 2874 | 2657 | 7.833 | 1.975 | 2.100 | 33.28 | 16.18 | 37.68 | |
300 | 2638.8 | 3073 | 2810 | 8.215 | 2.013 | 1.761 | 43.42 | 20.29 | 14.37 | |
500 | 3565.5 | 3488 | 3131 | 8.834 | 2.135 | 1.297 | 66.970 | 28.57 | – | |
750 | 4721.0 | 4043 | 3571 | 9.455 | 2.308 | 0.978 | 100.30 | 38.48 | – | |
1000 | 5875.5 | 4642 | 4054 | 9.978 | 2.478 | 0.786 | 136.3 | 47.66 | – | |
‡ The values for surface tension for the liquid section of the table are for a liquid/air interface. Values for the gas section of the table are for a liquid/saturated steam interface. |
Triple point
In the following table, material data are given with a pressure of 611.7 Pa (equivalent to 0.006117 bar). Up to a temperature of 0.01 °C, the triple point of water, water normally exists as ice, except for supercooled water, for which one data point is tabulated here. At the triple point, ice can exist together with both liquid water and vapor. At higher temperatures, the data are for water vapor only.
Water/steam data table at triple point pressure (0.0006117 MPa) | |||||||||
T °C | V dm3/kg |
H kJ/kg |
U kJ/kg |
S kJ/(kg·K) |
cp kJ/(kg·K) |
γ 10−3/K |
λ mW / (m·K) |
η µPa·s | |
0 | lq | 1.0002 | −0.04 | −0.04 | −0.0002 | 4.339 | −0.081 | 561.0 | 1792 |
0.01 | s | 1.0908 | −333.4 | −333.4 | −1.221 | 1.93 | 0.1 | 2180 | – |
lq | 1.0002 | 0.0 | 0 | 0 | 4.229 | −0.080 | 561.0 | 1791 | |
g | 205986 | 2500 | 2374 | 9.154 | 1.868 | 3.672 | 17.07 | 9.22 | |
5 | g | 209913 | 2509 | 2381 | 9.188 | 1.867 | 3.605 | 17.33 | 9.34 |
10 | 213695 | 2519 | 2388 | 9.222 | 1.867 | 3.540 | 17.60 | 9.46 | |
15 | 217477 | 2528 | 2395 | 9.254 | 1.868 | 3.478 | 17.88 | 9.59 | |
20 | 221258 | 2537 | 2402 | 9.286 | 1.868 | 3.417 | 18.17 | 9.73 | |
25 | 225039 | 2547 | 2409 | 9.318 | 1.869 | 3.359 | 18.47 | 9.87 | |
30 | 228819 | 2556 | 2416 | 9.349 | 1.869 | 3.304 | 18.78 | 10.02 | |
35 | 232598 | 2565 | 2423 | 9.380 | 1.870 | 3.249 | 19.10 | 10.17 | |
40 | 236377 | 2575 | 2430 | 9.410 | 1.871 | 3.197 | 19.43 | 10.32 | |
45 | 240155 | 2584 | 2437 | 9.439 | 1.872 | 3.147 | 19.77 | 10.47 | |
50 | 243933 | 2593 | 2444 | 9.469 | 1.874 | 3.098 | 20.11 | 10.63 | |
60 | 251489 | 2612 | 2459 | 9.526 | 1.876 | 3.004 | 20.82 | 10.96 | |
70 | 259043 | 2631 | 2473 | 9.581 | 1.880 | 2.916 | 21.56 | 11.29 | |
80 | 266597 | 2650 | 2487 | 9.635 | 1.883 | 2.833 | 22.31 | 11.64 | |
90 | 274150 | 2669 | 2501 | 9.688 | 1.887 | 2.755 | 23.10 | 11.99 | |
100 | 281703 | 2688 | 2515 | 9.739 | 1.891 | 2.681 | 23.90 | 12.53 | |
200 | 357216 | 2879 | 2661 | 10.194 | 1.940 | 2.114 | 32.89 | 16.21 | |
300 | 432721 | 3076 | 2811 | 10.571 | 2.000 | 1.745 | 43.26 | 20.30 | |
500 | 583725 | 3489 | 3132 | 11.188 | 2.131 | 1.293 | 66.90 | 28.57 | |
750 | 772477 | 4043 | 3571 | 11.808 | 2.307 | 0.977 | 100.20 | 38.47 | |
1000 | 961227 | 4642 | 4054 | 12.331 | 2.478 | 0.785 | 136.30 | 47.66 | |
Saturated vapor pressure
The following table is based on different, complementary sources and approximation formulas, whose values are of various quality and accuracy. The values in the temperature range of −100 °C to 100 °C were inferred from D. Sunday (1982) and are quite uniform and exact. The values in the temperature range of the boiling point of water up to the critical point (100 °C to 374 °C) are drawn from different sources and are substantially less accurate; hence they should be used only as approximate values.[19][20][21][22]
To use the values correctly, consider the following points:
- The values apply only to smooth interfaces and in the absence other gases or gas mixtures such as air. Hence they apply only to pure phases and need a correction factor for systems in which air is present.
- The values were not computed according formulas widely used in the US, but using somewhat more exact formulas (see below), which can also be used to compute further values in the appropriate temperature ranges.
- The saturated vapor pressure over water in the temperature range of −100 °C to −50 °C is only extrapolated [Translator's note: Supercooled liquid water is not known to exist below −42 °C].
- The values have various units (Pa, hPa or bar), which must be considered when reading them.
Formulas
The table values for −100 °C to 100 °C were computed by the following formulas, where T is in kelvins and vapor pressures, Pw and Pi, are in pascals.
Over liquid water
- loge(Pw) = –6094.4642 T−1 + 21.1249952 – 2.724552×10−2 T + 1.6853396×10−5 T2 + 2.4575506 loge(T)
For temperature range: 173.15 K to 373.15 K or equivalently −100 °C to 100 °C
Over ice
- loge(Pi) = –5504.4088 T−1 – 3.5704628 – 1.7337458×10−2 T + 6.5204209×10−6 T2 + 6.1295027 loge(T)
For temperature range: 173.15 K to 273.15 K or equivalently −100 °C to 0 °C
At triple point
An important basic value, which is not registered in the table, is the saturated vapor pressure at the triple point of water. The internationally accepted value according to measurements of Guildner, Johnson and Jones (1976) amounts to:
Values of saturated vapor pressure of water | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Temp. T in °C |
Pi(T) over ice in Pa |
Pw(T) over water in Pa |
Temp. T in °C |
Pw(T) over water in hPa |
Temp. T in °C |
P(T) in bar |
Temp. T in °C |
P(T) in bar |
Temp. T in °C |
P(T) in bar | ||||
−100 | 0.0013957 | 0.0036309 | 0 | 6.11213 | 100 | 1.01 | 200 | 15.55 | 300 | 85.88 | ||||
−99 | 0.0017094 | 0.0044121 | 1 | 6.57069 | 101 | 1.05 | 201 | 15.88 | 301 | 87.09 | ||||
−98 | 0.0020889 | 0.0053487 | 2 | 7.05949 | 102 | 1.09 | 202 | 16.21 | 302 | 88.32 | ||||
−97 | 0.0025470 | 0.0064692 | 3 | 7.58023 | 103 | 1.13 | 203 | 16.55 | 303 | 89.57 | ||||
−96 | 0.0030987 | 0.0078067 | 4 | 8.13467 | 104 | 1.17 | 204 | 16.89 | 304 | 90.82 | ||||
−95 | 0.0037617 | 0.0093996 | 5 | 8.72469 | 105 | 1.21 | 205 | 17.24 | 305 | 92.09 | ||||
−94 | 0.0045569 | 0.011293 | 6 | 9.35222 | 106 | 1.25 | 206 | 17.60 | 306 | 93.38 | ||||
−93 | 0.0055087 | 0.013538 | 7 | 10.0193 | 107 | 1.30 | 207 | 17.96 | 307 | 94.67 | ||||
−92 | 0.0066455 | 0.016195 | 8 | 10.7280 | 108 | 1.34 | 208 | 18.32 | 308 | 95.98 | ||||
−91 | 0.0080008 | 0.019333 | 9 | 11.4806 | 109 | 1.39 | 209 | 18.70 | 309 | 97.31 | ||||
−90 | 0.0096132 | 0.023031 | 10 | 12.2794 | 110 | 1.43 | 210 | 19.07 | 310 | 98.65 | ||||
−89 | 0.011528 | 0.027381 | 11 | 13.1267 | 111 | 1.48 | 211 | 19.46 | 311 | 100.00 | ||||
−88 | 0.013797 | 0.032489 | 12 | 14.0251 | 112 | 1.53 | 212 | 19.85 | 312 | 101.37 | ||||
−87 | 0.016482 | 0.038474 | 13 | 14.9772 | 113 | 1.58 | 213 | 20.25 | 313 | 102.75 | ||||
−86 | 0.019653 | 0.045473 | 14 | 15.9856 | 114 | 1.64 | 214 | 20.65 | 314 | 104.15 | ||||
−85 | 0.02339 | 0.053645 | 15 | 17.0532 | 115 | 1.69 | 215 | 21.06 | 315 | 105.56 | ||||
−84 | 0.027788 | 0.063166 | 16 | 18.1829 | 116 | 1.75 | 216 | 21.47 | 316 | 106.98 | ||||
−83 | 0.032954 | 0.074241 | 17 | 19.3778 | 117 | 1.81 | 217 | 21.89 | 317 | 108.43 | ||||
−82 | 0.039011 | 0.087101 | 18 | 20.6409 | 118 | 1.86 | 218 | 22.32 | 318 | 109.88 | ||||
−81 | 0.046102 | 0.10201 | 19 | 21.9757 | 119 | 1.93 | 219 | 22.75 | 319 | 111.35 | ||||
−80 | 0.054388 | 0.11925 | 20 | 23.3854 | 120 | 1.99 | 220 | 23.19 | 320 | 112.84 | ||||
−79 | 0.064057 | 0.13918 | 21 | 24.8737 | 121 | 2.05 | 221 | 23.64 | 321 | 114.34 | ||||
−78 | 0.075320 | 0.16215 | 22 | 26.4442 | 122 | 2.12 | 222 | 24.09 | 322 | 115.86 | ||||
−77 | 0.088419 | 0.18860 | 23 | 28.1006 | 123 | 2.18 | 223 | 24.55 | 323 | 117.39 | ||||
−76 | 0.10363 | 0.21901 | 24 | 29.8470 | 124 | 2.25 | 224 | 25.02 | 324 | 118.94 | ||||
−75 | 0.12127 | 0.25391 | 25 | 31.6874 | 125 | 2.32 | 225 | 25.49 | 325 | 120.51 | ||||
−74 | 0.14168 | 0.29390 | 26 | 33.6260 | 126 | 2.40 | 226 | 25.98 | 326 | 122.09 | ||||
−73 | 0.16528 | 0.33966 | 27 | 35.6671 | 127 | 2.47 | 227 | 26.46 | 327 | 123.68 | ||||
−72 | 0.19252 | 0.39193 | 28 | 37.8154 | 128 | 2.55 | 228 | 26.96 | 328 | 125.30 | ||||
−71 | 0.22391 | 0.45156 | 29 | 40.0754 | 129 | 2.62 | 229 | 27.46 | 329 | 126.93 | ||||
−70 | 0.26004 | 0.51948 | 30 | 42.4520 | 130 | 2.70 | 230 | 27.97 | 330 | 128.58 | ||||
−69 | 0.30156 | 0.59672 | 31 | 44.9502 | 131 | 2.78 | 231 | 28.48 | 331 | 130.24 | ||||
−68 | 0.34921 | 0.68446 | 32 | 47.5752 | 132 | 2.87 | 232 | 29.01 | 332 | 131.92 | ||||
−67 | 0.40383 | 0.78397 | 33 | 50.3322 | 133 | 2.95 | 233 | 29.54 | 333 | 133.62 | ||||
−66 | 0.46633 | 0.89668 | 34 | 53.2267 | 134 | 3.04 | 234 | 30.08 | 334 | 135.33 | ||||
−65 | 0.53778 | 1.0242 | 35 | 56.2645 | 135 | 3.13 | 235 | 30.62 | 335 | 137.07 | ||||
−64 | 0.61933 | 1.1682 | 36 | 59.4513 | 136 | 3.22 | 236 | 31.18 | 336 | 138.82 | ||||
−63 | 0.71231 | 1.3306 | 37 | 62.7933 | 137 | 3.32 | 237 | 31.74 | 337 | 140.59 | ||||
−62 | 0.81817 | 1.5136 | 38 | 66.2956 | 138 | 3.42 | 238 | 32.31 | 338 | 142.37 | ||||
−61 | 0.93854 | 1.7195 | 39 | 69.9675 | 139 | 3.51 | 239 | 32.88 | 339 | 144.18 | ||||
−60 | 1.0753 | 1.9509 | 40 | 73.8127 | 140 | 3.62 | 240 | 33.47 | 340 | 146.00 | ||||
−59 | 1.2303 | 2.2106 | 41 | 77.8319 | 141 | 3.72 | 241 | 34.06 | 341 | 147.84 | ||||
−58 | 1.4060 | 2.5018 | 42 | 82.0536 | 142 | 3.82 | 242 | 34.66 | 342 | 149.71 | ||||
−57 | 1.6049 | 2.8277 | 43 | 86.4633 | 143 | 3.93 | 243 | 35.27 | 343 | 151.58 | ||||
−56 | 1.8296 | 3.1922 | 44 | 91.0757 | 144 | 4.04 | 244 | 35.88 | 344 | 153.48 | ||||
−55 | 2.0833 | 3.5993 | 45 | 95.8984 | 145 | 4.16 | 245 | 36.51 | 345 | 155.40 | ||||
−54 | 2.3694 | 4.0535 | 46 | 100.939 | 146 | 4.27 | 246 | 37.14 | 346 | 157.34 | ||||
−53 | 2.6917 | 4.5597 | 47 | 106.206 | 147 | 4.39 | 247 | 37.78 | 347 | 159.30 | ||||
−52 | 3.0542 | 5.1231 | 48 | 111.708 | 148 | 4.51 | 248 | 38.43 | 348 | 161.28 | ||||
−51 | 3.4618 | 5.7496 | 49 | 117.452 | 149 | 4.64 | 249 | 39.09 | 349 | 163.27 | ||||
−50 | 3.9193 | 6.4454 | 50 | 123.4478 | 150 | 4.76 | 250 | 39.76 | 350 | 165.29 | ||||
−49 | 4.4324 | 7.2174 | 51 | 129.7042 | 151 | 4.89 | 251 | 40.44 | 351 | 167.33 | ||||
−48 | 5.0073 | 8.0729 | 52 | 136.2304 | 152 | 5.02 | 252 | 41.12 | 352 | 169.39 | ||||
−47 | 5.6506 | 9.0201 | 53 | 143.0357 | 153 | 5.16 | 253 | 41.81 | 353 | 171.47 | ||||
−46 | 6.3699 | 10.068 | 54 | 150.1298 | 154 | 5.29 | 254 | 42.52 | 354 | 173.58 | ||||
−45 | 7.1732 | 11.225 | 55 | 157.5226 | 155 | 5.43 | 255 | 43.23 | 355 | 175.70 | ||||
−44 | 8.0695 | 12.503 | 56 | 165.2243 | 156 | 5.58 | 256 | 43.95 | 356 | 177.85 | ||||
−43 | 9.0685 | 13.911 | 57 | 173.2451 | 157 | 5.72 | 257 | 44.68 | 357 | 180.02 | ||||
−42 | 10.181 | 15.463 | 58 | 181.5959 | 158 | 5.87 | 258 | 45.42 | 358 | 182.21 | ||||
−41 | 11.419 | 17.170 | 59 | 190.2874 | 159 | 6.03 | 259 | 46.16 | 359 | 184.43 | ||||
−40 | 12.794 | 19.048 | 60 | 199.3309 | 160 | 6.18 | 260 | 46.92 | 360 | 186.66 | ||||
−39 | 14.321 | 21.110 | 61 | 208.7378 | 161 | 6.34 | 261 | 47.69 | 361 | 188.93 | ||||
−38 | 16.016 | 23.372 | 62 | 218.5198 | 162 | 6.50 | 262 | 48.46 | 362 | 191.21 | ||||
−37 | 17.893 | 25.853 | 63 | 228.6888 | 163 | 6.67 | 263 | 49.25 | 363 | 193.52 | ||||
−36 | 19.973 | 28.570 | 64 | 239.2572 | 164 | 6.84 | 264 | 50.05 | 364 | 195.86 | ||||
−35 | 22.273 | 31.544 | 65 | 250.2373 | 165 | 7.01 | 265 | 50.85 | 365 | 198.22 | ||||
−34 | 24.816 | 34.795 | 66 | 261.6421 | 166 | 7.18 | 266 | 51.67 | 366 | 200.61 | ||||
−33 | 27.624 | 38.347 | 67 | 273.4845 | 167 | 7.36 | 267 | 52.49 | 367 | 203.02 | ||||
−32 | 30.723 | 42.225 | 68 | 285.7781 | 168 | 7.55 | 268 | 53.33 | 368 | 205.47 | ||||
−31 | 34.140 | 46.453 | 69 | 298.5363 | 169 | 7.73 | 269 | 54.17 | 369 | 207.93 | ||||
−30 | 37.903 | 51.060 | 70 | 311.7731 | 170 | 7.92 | 270 | 55.03 | 370 | 210.43 | ||||
−29 | 42.046 | 56.077 | 71 | 325.5029 | 171 | 8.11 | 271 | 55.89 | 371 | 212.96 | ||||
−28 | 46.601 | 61.534 | 72 | 339.7401 | 172 | 8.31 | 272 | 56.77 | 372 | 215.53 | ||||
−27 | 51.607 | 67.466 | 73 | 354.4995 | 173 | 8.51 | 273 | 57.66 | 373 | 218.13 | ||||
−26 | 57.104 | 73.909 | 74 | 369.7963 | 174 | 8.72 | 274 | 58.56 | 374 | 220.64 | ||||
−25 | 63.134 | 80.902 | 75 | 385.6459 | 175 | 8.92 | 275 | 59.46 | 374.15 | 221.20 | ||||
−24 | 69.745 | 88.485 | 76 | 402.0641 | 176 | 9.14 | 276 | 60.38 | ||||||
−23 | 76.987 | 96.701 | 77 | 419.0669 | 177 | 9.35 | 277 | 61.31 | ||||||
−22 | 84.914 | 105.60 | 78 | 436.6708 | 178 | 9.57 | 278 | 62.25 | ||||||
−21 | 93.584 | 115.22 | 79 | 454.8923 | 179 | 9.80 | 279 | 63.20 | ||||||
−20 | 103.06 | 125.63 | 80 | 473.7485 | 180 | 10.03 | 280 | 64.17 | ||||||
−19 | 113.41 | 136.88 | 81 | 493.2567 | 181 | 10.26 | 281 | 65.14 | ||||||
−18 | 124.70 | 149.01 | 82 | 513.4345 | 182 | 10.50 | 282 | 66.12 | ||||||
−17 | 137.02 | 162.11 | 83 | 534.3000 | 183 | 10.74 | 283 | 67.12 | ||||||
−16 | 150.44 | 176.23 | 84 | 555.8714 | 184 | 10.98 | 284 | 68.13 | ||||||
−15 | 165.06 | 191.44 | 85 | 578.1673 | 185 | 11.23 | 285 | 69.15 | ||||||
−14 | 180.97 | 207.81 | 86 | 601.2068 | 186 | 11.49 | 286 | 70.18 | ||||||
−13 | 198.27 | 225.43 | 87 | 625.0090 | 187 | 11.75 | 287 | 71.22 | ||||||
−12 | 217.07 | 244.37 | 88 | 649.5936 | 188 | 12.01 | 288 | 72.27 | ||||||
−11 | 237.49 | 264.72 | 89 | 674.9806 | 189 | 12.28 | 289 | 73.34 | ||||||
−10 | 259.66 | 286.57 | 90 | 701.1904 | 190 | 12.55 | 290 | 74.42 | ||||||
−9 | 283.69 | 310.02 | 91 | 728.2434 | 191 | 12.83 | 291 | 75.51 | ||||||
−8 | 309.75 | 335.16 | 92 | 756.1608 | 192 | 13.11 | 292 | 76.61 | ||||||
−7 | 337.97 | 362.10 | 93 | 784.9639 | 193 | 13.40 | 293 | 77.72 | ||||||
−6 | 368.52 | 390.95 | 94 | 814.6743 | 194 | 13.69 | 294 | 78.85 | ||||||
−5 | 401.58 | 421.84 | 95 | 845.3141 | 195 | 13.99 | 295 | 79.99 | ||||||
−4 | 437.31 | 454.88 | 96 | 876.9057 | 196 | 14.29 | 296 | 81.14 | ||||||
−3 | 475.92 | 490.19 | 97 | 909.4718 | 197 | 14.60 | 297 | 82.31 | ||||||
−2 | 517.62 | 527.93 | 98 | 943.0355 | 198 | 14.91 | 298 | 83.48 | ||||||
−1 | 562.62 | 568.22 | 99 | 977.6203 | 199 | 15.22 | 299 | 84.67 | ||||||
0 | 611.153 | 611.213 | 100 | 1013.25 | 200 | 15.55 | 300 | 85.88 | ||||||
Temp. T in °C |
Pi(T) over ice in Pa |
Pw(T) over water in Pa |
Temp. T in °C |
Pw(T) over water in hPa |
Temp. T in °C |
P(T) in bar |
Temp. T in °C |
P(T) in bar |
Temp. T in °C |
P(T) in bar | ||||
References
- ↑ David R. Lide CRC Handbook of Chemistry and Physics CRC Press, 2004, p. 6-15 ISBN 0-8493-0485-7
- ↑ Maksyutenko, Pavlo; Rizzo, Thomas R.; Boyarkin, Oleg V. (2006). "A direct measurement of the dissociation energy of water". The Journal of Chemical Physics 125 (18): 181101. doi:10.1063/1.2387163. PMID 17115729.
- ↑ Cook, R; Delucia, F; Helminger, P (1974). "Molecular force field and structure of water: Recent microwave results". Journal of Molecular Spectroscopy 53: 62. doi:10.1016/0022-2852(74)90261-6.
- ↑ Hoy, AR; Bunker, PR (1979). "A precise solution of the rotation bending Schrödinger equation for a triatomic molecule with application to the water molecule". Journal of Molecular Spectroscopy 74: 1–8. doi:10.1016/0022-2852(79)90019-5.
- ↑ http://cccbdb.nist.gov/expangle2.asp?descript=aHOH&all=0
- ↑ Griffiths, D. J. "Introduction to Electrodynamics," 3rd Ed. page 275. Prentice Hall, 1999 ISBN 0-13-859851-7
- ↑ "Water and the Speed of Sound". www.engineeringtoolbox.com. Retrieved 2008-04-29.
- ↑ Lange, p. 1199. Due to the old definition of liter used at the time, the data from the Handbook was converted from old g/ml to g/cm3, by multiplying by 0.999973
- ↑ David R. Lide CRC Handbook of Chemistry and Physics CRC Press, 2004, p. 6-201 ISBN 0-8493-0485-7
- ↑ Lange, p. 1663
- ↑ Revised Release on Viscosity and Thermal Conductivity of Heavy Water Substance, The International Association for the Properties of Water and Steam Lucerne, Switzerland, August 2007
- ↑ Lange, p. 1436
- ↑ Lange, p. 1476
- ↑ Martin Chaplin. "Water Phase Diagram". London South Bank University. Retrieved 2008-01-21.
- ↑ Lide, D. R., ed. (2005). CRC Handbook of Chemistry and Physics (86th ed.). Boca Raton (FL): CRC Press. pp. 8–71, 8–116. ISBN 0-8493-0486-5.
- ↑ Martin Chaplin. "Ionization of water". London South Bank University. Retrieved 2008-04-09.
- ↑ Martin Chaplin. "Water Absorption Spectrum". London South Bank University. Retrieved 2008-04-10.
- ↑ Fulmer et al. Organometallics, Vol. 29, No. 9, 2010
- ↑ Guildner, L. A.; Johnson, D. P.; Jones, F. E. (1976). "Vapor Pressure of Water at Its Triple Point: Highly Accurate Value". Science 191 (4233): 1261. doi:10.1126/science.191.4233.1261. PMID 17737716.
- ↑ Klaus Scheffler (1981): Wasserdampftafeln: thermodynam. Eigenschaften von Wasser u. Wasserdampf bis 800°C u. 800 bar (Water Vapor Tables: Thermodynamic Characteristics of Water and Water Vapor to 800°C and 800 bar), Berlin [u.a.] ISBN 3-540-10930-7
- ↑ D. Sonntag und D. Heinze (1982): Sättigungsdampfdruck- und Sättigungsdampfdichtetafeln für Wasser und Eis. (Saturated Vapor Pressure and Saturated Vapor Density Tables for Water and Ice)(1. Aufl.), VEB Deutscher Verlag für Grundstoffindustrie
- ↑ Ulrich Grigull, Johannes Staub, Peter Schiebener (1990): Steam Tables in SI-Units – Wasserdampftafeln. Springer-Verlagdima gmbh
Bibliography
- Lange's Handbook of Chemistry, 10th ed. ISBN 0-07-016384-7 (for 15th edition)
- Linstrom, P.J.; Mallard, W.G. (eds.) NIST Chemistry WebBook, NIST Standard Reference Database Number 69. National Institute of Standards and Technology, Gaithersburg MD. http://webbook.nist.gov
External links
- Microwave Spectrum (by NIST)
- Compilation of properties, with citations by Martin Chaplin, London South Bank University.
Disclaimer
Except where noted otherwise, data relate to standard ambient temperature and pressure.
Disclaimer applies.
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