Table 248. 

 PROPERTIES OF STEAM. 



Motric Measure. 



The temperature Centigrade and the absoUitc temperature in dcprees Centigrade, topcthcr with other data for utram 

 or water vapor stated in the hcadinRs of tlie cohiinns, are hurc >;ivcn. The (|uantilic^ of heal arc iti thcrmn or calo- 

 ries .iccinding as the gramme or the kilogi.uiiine is taken as the unit of mass. 



U 



d 



a 



5 



10 



IS 



20 

 25 



3° 

 35 

 40 



45 



50 



55 

 60 



65 

 70 



75 



80 



85 

 90 



95 



100 



105 

 no 



"5 

 120 



125 



130 



135 

 140 



145 



150 



155 

 160 



165 



170 



175 



180 

 .85 

 190 



195 



273 



278 



-83 

 2S8 



293 



298 



303 

 308 



3^3 



3i« 



323 



32S 

 333 



343 



348 

 353 

 358 



363 

 368 



373 

 378 



383 

 388 



393 



398 

 403 

 408 



413 

 418 



423 

 428 



433 



438 

 443 



448 



453 

 458 



463 

 468 



S 

 E 



t/l 4J 

 "* C 



200 473 



4.60 



6.53 



9-'7 



12.70 



I7.39 



23-55 



3I-55 

 41.83 



54-91 

 71-39 



91. 98 



117.47 

 148.79 

 186.94 

 233-08 



288.50 

 354-62 

 433-00 

 525-39 

 633-69 



760.00 

 906.41 

 1075.4 

 1269.4 



1491-3 



1743-9 

 2030.3 



2353-7 

 2717.6 

 3125.6 



3581.2 

 4088.6 

 4651.6 



5274-5 

 5961-7 



6717.4 

 7546.4 



8453-2 

 9442.7 

 10520. 



1 1 689. 



dJ U) w 

 b U V 



S|S 

 u « = 



6.25 



8.88 



12.47 

 17.27 

 23.64 



32.02 

 42.89 

 56.87 



74-65 

 97.06 



125.0 



1 59-7 

 202.3 

 254.2 

 316.9 



392-3 

 482.1 

 588.7 

 714.4 

 861.7 



1033- 

 1232. 

 1462. 

 1726. 

 2027. 



2371- 

 2760. 

 3200. 



3695- 

 4249. 



4869. 



5589- 

 6324. 



7171. 



8105. 



9133- 

 10260. 



1 1490. 



12838. 



14303- 



15892. 



1 

 i B 



^ o 

 — o 



f §^ 



2- II 



0.006 

 .009 

 .012 

 .017 

 .023 



0.031 

 .042 



•055 

 .072 



•094 



O.I 21 



-155 

 .196 



.246 



.306 



0.380 

 .446 

 •570 

 .691 



•834 



1. 000 



•193 

 •415 

 .670 

 .962 



2.295 

 2.671 

 3-097 

 5-576 

 4-113 



4.712 



5-380 

 6.120 



6.940 

 7.844 



8.839 

 9.929 



I I.I 23 



12.425 



13.842 

 15.380 



a 



606.5 

 608.0 

 609.5 

 611. 1] 

 612.6 



614.I 

 615.6 

 617.2 

 618.7 

 620.2 



621.7 



623-3 

 624.8 

 626.3 

 627.8 



629.4 

 630.9 

 632.4 



633-9 



635-5 



637.0 



638-5 

 640.0 



641.6 



643.1 



644.6 

 646.1 

 647.7 

 649.2 

 650.7 



652.2 

 653.8 



6553 

 656.8 



658.3 



659.9 

 661.4 

 662.9 

 664.4 



666.0 

 667.5 



8.-« 

 21 



•3^ 



0.00 



5.00 

 10.00 

 15.00 

 20.01 



25.02 



30-03 

 35-04 

 40.05 



45-07 

 50-09 



55-11 

 60.13 



65.17 

 70.20 



75-24 

 So. 28 



85-33 

 90-38 

 95-44 



100.5 

 105.6 



1 10.6 



115-7 

 120.8 



125-9 

 1 31.0 



136-1 

 141.2 

 146.3 



151-5 

 156-5 



161. 7 

 166.9 

 172.0 



177.2 

 182.4 

 187.6 

 192.8 

 198.0 



203.2 



S-i 



K „ 



« * -- 



oall 



606.5 

 603.0 



599-5 

 596.0 



592.6 



589.1 



585-6 

 582.1 

 587.6 



575-1 



571-7 

 568.2 



564-7 

 561. 1 



557-6 



554-1 

 550.6 



547-1 

 543-6 

 540.0 



536-5 

 533-0 

 529.4 



525-8 

 522.3 



518.7 



515-1 

 51 1.6 



50S.0 

 504-4 



500.8 



497-2 



493-5 

 489.9 



486.3 



482.7 

 479-0 

 475-3 

 471-7 

 468.0 



464-3 





3 '-07 

 31-47 

 31.89 



3232 

 32-75 



33- 20 

 33-66 

 34-12 



34.59 

 35.06 



35-54 

 36.02 



36.51 

 37.00 



37-48 



37-96 

 38.42 

 38.88 



39-33 

 39-76 



40.20 

 40.63 

 41.05 

 41.46 

 41.86 



42.25 

 42.63 

 43.01 

 43-38 

 43-73 



44-09 



44-43 

 44.76 



45-09 

 45-40 



45-71 

 46.01 

 46.30 



46.59 

 46.86 



47-13 



ut 



— f T 



575-4 

 576.5 

 577-7 

 578.8 



579-8 



580.9 

 582.0 



583-1 

 584.1 



585-2 



586.2 



587.2 



588.3 



589-3 

 590.4 



591-4 

 592-5 

 593-5 

 594-6 



595-7 



596.8 

 597-9 

 599-0 

 600. 1 

 601.2 



602.4 

 603.5 

 604.7 

 605.8 

 607.0 



608.2 

 609.3 

 610.5 

 611. 7 

 612.9 



614.2 



6iS-4 

 616.6 

 617.9 

 619.1 



620.4 



575-4' 



571-5 



567-7 



563-7 



559-8 



555-9 

 552.0 

 548.2 

 544.1 

 540.1 



536.1 



532.1 



52S.1 



524-2 

 520.2 



516.2 

 512.2 

 508.2 

 504.2 

 500.3 



496.3 



4923 

 488.4 



484.4 



480.4 



476.5 

 472.5 

 468.6 

 464.6 

 460.7 



456.7 

 452.8 

 448.8 

 444.8 

 440.9 



436-9 

 433-0 

 429.0 

 425.0 

 421. 1 



417.1 



Egii 



h u u. 



210.66 



1 50.23 



108.51 



79-35 

 78.72 



4396 

 33-27 

 25-44 

 19.64 



15-3' 



12.049 

 9.561 



7653 

 6.17 1 

 5.014 



4.102 



3-379 

 2.800 



2-334 

 1-957 



1 .6496 

 1-3978 

 1. 1903 

 1.0184 

 0.8752 



0-7555 

 0.6548 

 0.5698 

 0.4977 

 0.4363 



0-3839 

 0.3388 



ScE 



c •^ rt 

 • - ^ «j 



n c 



2.732 

 3.805 



5-231 

 7.104 

 9532 



12.64 

 16.59 

 21.54 



27.70 

 35-26 



44-49 



55-65 



69.02 



84.94 



103-75 



125.8 

 151.6 

 181.5 

 216.0 



255-7 



300.8 

 352.2 

 410.3 

 475-6 

 549.0 



630.7 

 721.6 



822.3 



933-5 

 1055.7 



1 190. 

 >336- 



0.3001 1496. 

 0.2665 1669. 

 0.2375 1856. 



0.2122 

 0.1901 



0.1708 



0.1538 

 0.1389 



0.1257 



2059. 

 2277. 

 2512. 

 2763. 

 3031- 



3318- 



• Where A is the reciprocal of the mechanical equi%-alent of the thermal unit. 

 _H--{h_+Afivl__ internal-work pressure Where v is taken in litres the pressure is given per square 



' V mechanical equivalent of heat l • i • i . 



decimetre and where v is taken in cubic metres the pressure is Riven per square metre, -the mechanical equivalent 

 being that of the therm and the kilogramme.<iegree or calone respecuvely. 

 Smithsonian Tables. 



