Water Vapor Pressure at Different Temperatures (°C)
Temperature
Vapor Pressure (torr)
Vapor Pressure (Pa)
0
4.6
613.2812
4
6.1
813.2642
10
9.2
1226.562
15
12.8
1706.522
20
17.5
2333.135
22
19.8
2639.776
25
23.8
3173.064
30
31.8
4239.64
35
42.2
5626.188
40
55.3
7372.707
45
71.9
9585.852
50
92.5
12332.29
55
118.0
15732
60
149.4
19918.31
65
187.5
24997.88
70
233.7
31157.35
75
289.1
38543.39
80
355.1
47342.64
85
433.6
57808.42
90
525.8
70100.71
95
633.9
84512.82
100
760.0
101324.7
Water Kw and pKw at Different Temperatures (°C)
Temperature
Kw x10–14
pKw
0
0.112
14.95
5
0.182
14.74
10
0.288
14.54
15
0.465
14.33
20
0.671
14.17
25
0.991
14.00
30
1.432
13.84
35
2.042
13.69
40
2.851
13.55
45
3.917
13.41
50
5.297
13.28
55
7.080
13.15
60
9.311
13.03
75
19.95
12.70
100
56.23
12.25
Note: $ pK_w = -log_{10} K_w $
Specific Heat Capacity for Water
C°(H2O(l)) = 4.184 J∙g-1∙°C-1
C°(H2O(s)) = 2.093 J∙K−1∙g−1
C°(H2O(g)) = 1.864 J∙K−1∙g−1
Standard Water Melting and Boiling Temperatures and Enthalpies of the Transitions
Temperature (K)
ΔH (kJ/mol)
melting
273.15
6.088
boiling
373.15
40.656 (44.016 at 298 K)
Water Cryoscopic (Freezing Point Depression) and Ebullioscopic (Boiling Point Elevation) Constants
Kf = 1.86°C∙kg∙mol−1 (cryoscopic constant)
Kb = 0.51°C∙kg∙mol−1 (ebullioscopic constant)
The plot shows the extent of light absorption versus wavelength for water. Absorption is reported in reciprocal meters and corresponds to the inverse of the distance light may travel through water before its intensity is diminished by 1/e (~37%).
