Carnegie Institution of Washington publication . C= ; pw = at ; float,2r = cm.; vessel, 2r = 4-6 cm. Date. Barom-eter. t // vu Date. Barom-eter. t H Po Sept. 19 • 75-85 5-399 Oct. 7 . 75-68 20 . 5 401 8 ? 5 187 21 76. 90 5 388 9 . 6735 5 177 23 . 5 358 10 • 67-54 5 168 24 . 17-4 5 338! 11 • 5 180 25 • 5 330 12 . 5 .63 26 . 5 323 14 . 5 155 27 • 5 30

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Carnegie Institution of Washington publication . C= ; pw = at ; float,2r = cm.; vessel, 2r = 4-6 cm. Date. Barom-eter. t // vu Date. Barom-eter. t H Po Sept. 19 • 75-85 5-399 Oct. 7 . 75-68 20 . 5 401 8 ? 5 187 21 76. 90 5 388 9 . 6735 5 177 23 . 5 358 10 • 67-54 5 168 24 . 17-4 5 338! 11 • 5 180 25 • 5 330 12 . 5 .63 26 . 5 323 14 . 5 155 27 • 5 308 5 . 5 151 28 ? 77-04 5 294 16 • 5 141 30 . ?7-4 5 296 7 • 5 13 Oct. 1 . 67-53 5 247 18 . 5 128 2 . 5 236 1 19 • 75-97 5 125 3 • 5 257 1 21 • 77-29 5 112 4 5 i 22 . 5 107 5 76. 69 5 207 23 . 5 105. Fig. 27.—Chart showing loss of standardvolumes of gas in diver in lapse ofdays. Diffusion of air through CaCl2solution. Table 31.—Air-air through CaClj solution ( grams in 100 grams water). VesselC (single tube). Constants as in table 30. pw = 1. 105 at 230. Date. Barom-eter. I H Vo Date. Barom-eter. t H Vo Oct. 26 • 75-66 5-797 i Nov. 7 76. 02 5-707 28 5 786 8 • 75-07 5-77 29 . 5 774 9 • 75-55 30 . 5 763 11 • Nov. 1 ? 75 91 5 750 12 • 5-679 2 . 75-62 20. 5 5 741 13 5. 669 4 • 77-33 . 5 705 14 - 75 69 5 . 20. 5 5 693 15 • 75-72 6 . i 5 703 16 • .

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Keywords: ., bookauthorcarnegie, bookcentury1900, bookdecade1910, bookyear1913