n LIBRARY OF CONGRESS. b' ^8fc i|3p. (i0j«|rwj|i !f tr> UNITED STATES OF AMERICA. 'W^ CHEMICAL ERsiON Tables, FOR USE IN THE ANALYSIS OF COMMERCIAL FERTILIZERS. ^ y BY F. B. DANCY, A. B., and H. B. BATTLE, B. S., Chemists in the Nokth Carolina Agricultural Experiment Station. RALEIGH : riHI.lSHED BY THE AUTHORS. 1S85. COPYRIGHT, 1S85, BY H. B. BATTLE and F. B. DANCY. Presses of Edwards, Broughton & Co,, Raleigh, N. C. PREFACE. The following tables are intended to meet a long felt want on the part of Agricultural Analytical Chemists for some relief from the laborious and time-consuming calcula- tions necessary to convert the result of each separate deter- mination into the customary per cent. They embrace only what is required in the analysis of commercial fertilizers and their derivative constituents, and hence are principally for the benefit of agricultural chemists. For this purpose the otherwise admirable tables of Frerichs & Kohlmann are inadequate, since they do not convert to per cents, the weights there given do not extend to fractions of a milli- gramme, nor do they contain the CagP^O^ conversion table. This volume, then, conflicts in no way with theirs, but furnishes a need not attempted to be supplied by them. The tables are based on the latest atomic weights as given by Clarke, ("The Constants of Nature," Part V, 1882), with the exception of the Potash Table, the reason for this departure being given under its appropriate head. F. B. Dancy, H, B. Battle. Laboratory of the N. C. Agricultural Exp't Station, Raleigh, May ist, 1S85. CHEMICAL Conversion Tables. TABLE I. PHOSPHOKTC ACID CONVERSION TABLE. In the following table for the conversion of Macrnesium Pyrophosphate (Mg,F,0,) into Phosphoric Acid (PoO.) and Tricalcium Phosphate (CajP^O,), the figures are based on the supposition that one-half {\) grin, of the substance orig- inally weighed out is precipitated and weighed as Mg^P^O, in the determination of the P^O^ present. This weight (^ grm.) is taken because practically it is found more conve- nient than any other, because the Convention of Agricultural Chemists adopted it in their official methods at Atlanta, May, 1884, and because a majority of the chemists through- out the country use it. The factor employed for the conversion of Mg^P^O^ to P2O5 is .63965. In the calculation of the CagP^O^ it is thought advisable to convert direct from the MgaPgO^, as being more accurate than obtaining it through the medium of the PgOg ; this factor is 1.3972. In the table the numbers are carried to the second decimal, which is always sufficient for a commercial analysis. The rule in this table (as well as in all the others in this book) for throwing aside decimals is invariable, that of raising the second decimal to the next higher figure when the suc- ceeding decimals amount to .005 or more ; when these decimals do not amount to .005 the second decimal is un- changed. E. g., 21.06532 is changed to 21.07; ^"<^ 16.32245 is allowed to remain 16.32. The reason is obvious, as the changed figures will more nearly represent the truth than any others. 6 Chemical Conversion Tai;li:s. The table can be used for i grin, as well as | grm., in which case the weight of Mg^,P^07 is divided by two, the resulting number is found in the table and the per cent, sought for will be found opposite. Likewise when ^ grm. is used the weight of Mg^PaO, is doubled before using the table. In the analysis of very high grade phosphates where the content of PgOg is likely to exceed 30 per cent., it is advisable to use this latter weight, as the precipitate then can be more easily treated and accuracy better attained. Phosphoric Acn:» Table. OraiisKiie .0000 — .0199. t » rni . % % Grm. % % (J nil. 9c % Grm. % % 0^ 0" 0^ ^ i 0^ i cT « gT eT w ." :— us t^' ^ w tiO q CC to c c; u 0^ ta q_ '~L 2 (C u S ! ^' '>J S cC c S cT 6 .0000 .00 .00 .0050 .64 1.40 .0100 1.28 2 79 .0150 1.92 4.19 .0001 .01 ■03 .0051 .65 1.42 .OIi'I 1.29 2.82 .0151 1-93 4-22 .0002 •03 .06 .0052 .67 1-45 .0102 1.30 2.85 .0152 1.94 4^25 .0003 .04 .08 •0053 .68 1. 48 .0103 1.32 2.88 ■0153 1.96 4^27 .0004 •05 .11 .0054 .69 151 0104 1-33 2.91 • 0154 1.97 4^3^ .0005 .0() .14 .0055 .70 1-54 .0105 1-34 2.93 .0155 1.98 4^33 .0006 .08 • 17 .0056 •72 1.50 .0106 1.36 2.96 .0156 2.00 436 .0007 .09 .20 .0057 • 73 1^59 .0107 1^37 2.99 •0157 2.01 4 39 .0008 .10 .22 .005S •74 1. 02 .oioS 1.38 3 02 .0158 2.02 4.41 .0009 . 12 •25 • 0059 •75 1.65 .0109 1-39 3-05 .0159 2 03 4^44 .0010 ■13 .28 .0060 •77 "1.68 .0110 1. 41 3-07 .0160 2.05 4 47 .0011 .14 •31 .0061 •78 1.70 OIII 1.42 3.10 .0161 2 06 4.50 .0012 •15 •34 .0062 •79 1-73 .ori2 ^•43 3 13 3 1<) .0162 2.07 4^53 .0013 • '7 .36 .0063 .81 1.76 .UI13 '•45 .0163 2 09 4^55 .0014 .iS •39 .0064 .82 1.79 .01 14 1,46 3 19 .0164 2.10 458 .0015 .19 .42 .0065 .83 1.82 .0115 147 3.21 .0165 2.11 4.61 .0016 .20 •45 .0066 • 84 1.84 01 16 1.48 3 24 .0166 2.12 4.64 .0017 .22 •47 .0067 .b6 1.87 .UI17 1.50 3 27 .0167 2.14 4.67 .corS •23 .50 .006S .87 1.90 .oiiS I-5I 3 30 .0168 2^15 4^69 .0019 .24 .53 .0069 .88 i^93 .01 19 152 3 32 .0169 2.16 472 .U020 .26 •56 .0070 .90 1.96 .0120 '■54 3-35 .0170 2 17 4-75 .0021 •27 •59 .0071 .91 1. 98 .0121 1-55 3-38 3^4' 3-44 0171 2 19 478 .0022 .28 .61 .0072 •92 2.01 .0122 1.56 .0172 2.20 4^8i .0023 .29 .64 .0073 ■93 2.04 .0123 1^57 .0173 2.21 4.83 .0024 •31 .67 .0074 •95 2.07 .0124 1-59 3^46 .0174 2.23 4.86 .0025 •32 .70 .0075 .96 2.10 .0125 1.60 349 •0175 2.24 4^89 .OC26 •33 •73 .0076 ■97 2.12 .0126 1.61 3-52 .0176 2.25 4.92 .0027 •35 •75 .0077 •99 2^I5 .0127 1.62 3-55 .0177 2.26 4 95 .0028 .36 .78 .0078 1. 00 2.1S .0128 1.64 358 .0178 2.28 4^97 .0029 • 37 .81 .0079 1. 01 2.21 .0129 1.65 3.60 .0179 2 29 5.00 .0030 • 3S • 84 .0080 1.02 2.24 .0130 1.66 3-63 .0180 2.30 5^03 .0031 .40 .87 .0081 1.04 2.26 .0131 1.68 3.66 .0181 2.32 5.06 .0032 .41 .89 ,0082 1.05 2.29 .0132 1.69 3-69 .0182 2.33 5 09 •0033 .42 .92 .0083 1.06 2.32 ■0133 1.70 3-72 .0183 2.34 5-II .0034 •43 •95 .0084 1.07 2.35 .0134 1. 71 3-74 .0184 2-35 5^14 •0035 •45 .98 .0085 1.09 2^37 •0135 1^73 3^77 .0185 2.37 5.17 .0036 .46 1. 01 .00S6 1. 10 2.40 .0136 1.74 3.80 .0166 2.38 5^20 .U037 •47 1.03 .0087 I. II 2.43 .0137 ^•75 383 .0187 2.39 5-22 .003S ■49 1.06 .00S8 I^13 2.46 .0138 1.77 3.86 .0188 2.41 5-25 .0039 •50 1.09 .00S9 1. 14 2.49 .0139 1.78 3.88 .0189 2.42 5^28 .0040 •51 1. 12 .0090 I-I5 2.51 .0140 1.79 3^91 .0190 2^43 5 31 .0041 •52 1^15 .0091 1. 16 2.54 .0141 1.80 3 94 .0191 244 5^34 .0042 •54 1. 17 .0092 1. 18 2-57 .0142 1.82 3 97 .0192 2.46 5^36 .0043 •55 1.20 .0093 1. 19; 2.60 • 0143 1.83 4 00 •0193 2.47 5-39 .0044 •56 r.23 .0094 1.20 2.63 .0144 1. 84 4.02 .0194 2. 48 542 .0045 •58 1.26 .0095 I 22 2.65 .0145 1.85 4^05 .0195 2.49 5-45 .0046 •59 1.29 .0096 1.23 2.68 .0146 1.87 4.08 .0196 2^51 5^48 .0047 .60 131 .0097 1.24 2.71 .0147 1.88 4.11 .0197 2.52 5.50 .0048 .61 ^•34 .0098 ^•25 2.74 .0148 1.89 4^14 .0198 2.53 5 53 .0049 .63 r-37 .0099 1.27 2^77 .0149 i.gi 4 16 1 .0199 2.55 5-56 Phosphoric Ach) Table. Gramme .0200 — •0399. Grm. % 7o Grm. % ?c Grm. % 1 % Grm. % % 0" 0* 0^ 00 0" 0^ f.;' Oh" 10 cT 0^ Ch" P-°' &!" S (iT CJ 5-59 S pT 6 s cT u S pS 6 .0200 2.56 .0250 3.2c 6.99 .0300 3-84 8.38 .0350 448 9.78 .0201 2.57 5.62 .0251 3.21 7.01 .0301 3.85 ! 8.41 •0351 4-49 9.81 .0202 2.5S 5.64 .0252 3.22 7.04 .0302 3.86 8.44 ■ 0352 4-50 9-83 .0203 2.60 : 5.07 •0253 324 7.07 ■ Oj03 3.88 8-47 •0353 452 9.86 .0204 2.61 5-70 .0254 325 7.10 .0304 3-89 8.49 •0354 4-53 9.89 .0205 2.62 ' 5-73 •0255 3.26 7.12 .0305 390 8.52 -0355 4-54 9.92 .0206 2.64 5.76 .0256 3 28 7-15 .0306 3-91 8.55 •0356 4-55 9-95 .0207 2.65 5.78 •0257 3 2g 7.18 .0307 3-93 8.58 ■0357 4-57 9-97 .0208 2.66 5.81 .0258 3-3^ 7.21 .030S 3-94 8.61 ■0358 4-58 10.00 .0209 2.67 5.84 .0259 3. 3' 7.24 .0309 3 95 8.63 •0359 4-59 10.03 .02T0 2.69 5.87 .0260 3-33 7.26 .0310 3-97 8.66 .0360 4.61 10.06 .0211 2.70 5 -9" .0261 3-34 7.29 .0311 3 9^ 8.69 .0361 4 62 10.09 .0212 2.71 5-9-' .0262 3-35 7-32 .0312 3-99 8.72 .0362 4-63 10.11 .0213 2.72 5-95 .0263 3.3(' 7-35 •0313 4.00 S.75 .0363 4.64 10.14 .0214 2.74 5- 9'^ .0264 3.38 7.3s .0314 4 02 8-77 .0364 4 66 10.17 .0215 2 75 () 01 .0265 3-39 7.40 • 0315 4-03 8.80 -0365 4.67 10.20 .0216 2.7(« 6.04 .0266 3-4U 7-43 .0316 4.04 8. S3 .036() 4.68 10.23 .0217 2.7S 6.06 .0267 342 7.40 •0317 4.06 8.86 .0367 4.70 10.25 .0218 2.79 6.09 .026S 3 43 7-49 .0318 4.07 8.88 .0368 4-71 10.28 .0219 2.80 6.12 .0269 3-44 7-52 .0319 4.0S 8.91 .0369 4.72 10.31 .0220 2. Si 6.15! .0270 3-45 7-54 .0320 4.09 8-94 .0370 4-73 1034 .0221 2. S3 6.171 .0271 3-47 7-57 .0321 4.11 8.97 .0371 4-75 10.37 .0222 2.S4 6.2U 1 .0272 3.48 7.60 .0322 4.12 9 00 .0372 4.76 10.39 .0223 2.S5 623 .0273 3-49 7.63 • 0323 413 9.02 -0373 4-77 10.42 .0224 2.87 6.26 .0274 351 7.66 .0324 4.14 9-05 0374 4.78 10.45 .0225 2.8S 6.29 ■0275 3-52 7.68 .0325 4.16 9.08 •0375 4.80 10.48 .0226 2. 89 631 .0276 3-53 7-71 .0326 4.17 9.11 .0376 4-Si 10.51 .0227 2.qo 6-34 .0277 3 54 7-74 .0327 4.18 9.14 •0377 4.82 10.53 .0220 2.92 6-37 .027S 3-56 7-77 0328 4 20 9.16 .0378 4-84 10.56 .0229 2-93 6.40 .0279 357 7.80 .0329 4.21 9.19 .0379 4-85 10.59 .0230 2.94 6.43 .0280 3.58 782 .0330 4.22 9.22 .03S0 4.86 10.62 .0231 2.96 6.45 .02S1 3-59 7.85 .0331 423 925 .0381 4.87 10.65 .0232 2.97 6.4S .02S2 3,61 7 88 .0332 4-25! 9.28 .0382 4.89 10.67 .0233 2. 98 6.51 .0283 3.62 7.91 •0333 4.26 9- 30 •0383 490 10.70 .0234 2.99 6.54 .02S4 3.63 793 •0334 4-27 9-33 .0384 4.91 10.73 •0235 3 01 6.57 .02SS 3.65 7.96 t^335 4-29; 936 .0385 4-93 10.76 0236 3 02 6-59 .02S6! 3.66 7-99 .0336 4-301 9-39 .03S6 4-94 10.78 .0237 303 662 .02S7 3-67 8.02 •0337 4.31 9.42 .0387 4-95 10.81 .0238 3-04 6.65 0288 3.6b 8.05 .0338 4-32 9-44 .038s 4.96 10.84 .0239 3.06 6. 68 .0289 370 8.07 •0339 4.34 9 47 .0389 4-98 10.87 .0240 3-^7 671 .0290 3-71 8.10 .0340 4-35 9.50 .0390 4.99 lo.go .0241 3.08 6-73 .0291 3-72 8.13 •0341 4-361 9-53 .0391 5.00 10.92 .0242 3.10 6.76 0292 3-74 8.16 .0342 4.38; 9.56 .0392 5.0I 10.95 .0243 311 6.79 .0293 3-75 8.19 •0343 439I 958 -0393 5-03 10.98 .0244 3.12 6.82 .0294 3 76 8.21 ■0344 4.40J 9.61 • 0394 5-04 II. 01 .0245 3 13 6.85 .0295 3-77 S.24 •0345 4-41: 9.64 •0395 5-05 11.04 .0246 3 15 6.87 .0296 3-79 8.27 .0346 4-43j 9.67 .0396 5-07 11.06 .0247 3.16 6.90 .0297 3.80 8. 30 •0347 4-441 9.70 •0397 5.08 ii.og .O24S 317 ^J.93 .029S 381 8.33 .0348 4-45! 9.72 -0398 5-09 11.12 .0249 310 696 .0299 3.8t S.35 •0349 446I 9.75 1 •0399 5-10 11.15 Phosphoktc Acid Table. Gramme .0400— .0599. Grn> % % dm % % Grm % % Grm 7o /o q 0" q_ 0^ q q 0^ q 6^ pT Si 0" r3 ti) q ^ pT 0" eu" s tn" II. 18 .045c tf .050c ^ 13-97 % oT .040c 5.12 5^7^^ 12.57 6.40 •0550 7.04 15-37 .0401 5-13 11.20 .0451 5-77 12.60 -050I 6.41 14.00 -0551 7.05 15-39 .0402 5.14 11.23 1 -0452 5-78 12.63 .0502 6.42 14-03 -0552 7.06 15-42 .0403 S-iC 1 11,26 1 0453 5.80 12 66 •0503 6.43 14-05 •0553 7-07 15-45 .0404 5-17 11.29 •0454 5^8i 12. 65 -0504 6.45 14.08 •0554 7-09 15.48 .0405 5.>8 11.32 ■0455 5.82 12.71 -0505 6.46 14. II -0555 7.10 15-51 .0406 5.19 11.34 .0456 5.83 12.74 .0506 6.47 14.14 .0556 7-11 15-53 .0407 5-21 "37 .0457 5-85 12.77 .0507 6.49 14.T7 -0557 7-13 15-56 .040S 5-22 11.40 .0458 5.86 12.80 .0508 6.50 14.19 -0558 7-14 15-59 .0409 5-23 "•43 •0459 5.87 12.82 .0509 6.51 14.22 •0559 7-15 15.62 .0410 5-25 11.46 .0460 5.88 12. 85 -0510 6.52 14-25 .0560 7.16 15-65 .0411 5 26 11.48 .0461 5 .90 12.88 .0511 6-54 14.28 -0561 718 15-67 .0412 5-27 II. 51 .0462 5^91 12.91 .0512 6.55 14-31 .0562 7.19 15-70 .0413 5. 28 "■54 .0463 5^92 12.94 -0513 6.56 14-33 .0563 7.20 15-73 .0414 5-30 "•57 .0464 5.94 12.96 .0514 6.58 14.36 .056^ 7.22 15-76 ■0415 5-31 11.60 .0465 5-95 12 99 •0515 6-59 14-39 .0565 7-23 15-79 .0416 5-32 11.62 .0466 5^9^ 13.02 .0516 6.60 14.42 .0566 7.24 15.81 .0417 5-33 11.65 .0467 5-97 13.05 -0517 6.61 14.44 .0567 7-25 1584 .0418 5-35 11.68 .0468 5^99 13.08 .0518 6.63 1447 .0568 7 27 15.87 .0419 5-36 II. 71 .0469 6.00 13.10 .0519 6.64 14.50 .0569 7.28 15.90 .0420 5-37 H-73 .0470 6.01 13-13 .0520 6.65 14.53 .0570 7.29 15-93 .0421 5-39 11.76 .0471 6.03 13.16 .0521 6.67 1456 ■0571 7-30 15-95 .0422 5-40 11.79 .0472 6.04 I3-I9 .0522 6.68 14-58 -0572 7-32 15.98 .0423 >4i 11.02 •0473 6.05 13.22 .0523 665 14.61 -0573 7-33 16.01 .0424 5-42 11.85 .0474 6.06 13-24 1327 -0524 6.70 14.64 •0574 7-34 16.04 .0425 5-44 11.87 •0475 6.08 -0525 6.72 14.67 -0575 7-36 16.07 .0426 5-45 11.90 .0476 6.09 13-30 .0526 6.73 14.70 .0576 7-37 16.09 .0427 5 46 "•93 .0477 6.10 13-33 .0527 6.74 14.72 •0577 7-3S 16.12 .0428 5.4S 11.96 .047fi 6.12 13-36 .052S 6-75 14-75 .0578 7-39 16.15 .0429 5-49 11.99 ■0479 6.13 13-38 .0529 6.77 14.78 •0579 741 16.18 .0430 5-50 12.01 .0480 6.14 13-41 •0530 6.78 14.81 .0580 7.42 16.21 .0431 5-51 12.04 .0481 6.15 1344 -0531 6.79 14.84 -0581 7-43 16.23 .0432 5 53 12.07 .0482 617 13-47 •0532 6.81 14.86 .0582 7-45 16.26 •0433 5-54 12. 10 .0483 6.18 13-50 •0533 6.82 14.89 .0583 7,46 16.29 •0434 5-55 12.13 .0484 6.19 13-52 •0534 6.83 14.92 .0584 7-47 16.32 ■0435 5.56 12.15 •0485 6.20 13-55 •0535 6.84 14-95 .05S5 7-48 16.34 .0436 5.58 12.18 .0486 6.22 13-58 •0536 6.86 14.98 .0586 7-50 16.37 •0437 5-59 12.21 .0487 6.23 13.61 -0537 6.87 15.00 .0587 7-51 16.40 .0438 5.60 12.24 .0^88 6.24 13-63 •0538 6 88 15 03 .0588 7.52 16.43 •0439 5.62 12.27 .04S9 6.26 13.66 -0539 6.90 15.06 .0589 7-54 16.46 .0440 5.63 12.29 .0490 6.27 13.69 .0540 6.91 15.09 .0590 7-55 16.48 .0441 5.64 12.32 .0491 6.28 13-72 •0541 6.92 15.12 -0591 7-56 16.51 .0442 5.65 '2.35 .0492 6.29 13-75 .0542 6.93 15-14 •0592 7-57 16.54 •0443 5.67 12.38 •0493 6.31 13-77 -0543 6.95 15-17 -0593 7-59 16.57 .0444 5-68 12.41 .0494 6.32 13-80 •0544 6.96 15-20 •0594 7.60 16.60 •0445 5-^9 12.43 • 0495 6.33 f3-83 -0545 6.97 15-23 -0595 761 16.62 .0446 5-71 12.46 .0496 6.35 [3.86 .0546 6.98 15.26 -0596 7.62 16.65 .0447 5.72 12.49 .0497 6.36 [3-89 -0547 7.00 15.28 -0597 7-64 16.68 .0448 5.73 12.52 .0498 6.37 f3-9i -0548 7.01 15-31 .0598 7-65 [6.71 0449 5-74' t2.55 .0499I 6.38I] [3-94 •0549 7.02 ^5-34 .0599I 7.66I16.74 lO Phosphoric Acid Tablk, Gramme .0600— .0799. Gim. % % Grm. % ;/ Grm. 7c % Grm. 7 % 0" oJ_ q| 0^ tJO 0^ 0" pt" C p!" pT S 7.68 CJ .0650 pT 8.32 CJ 18.16 .0700 pT 8.96 19.56 .0750 Ph" 9 59 CJ .0600 16.76 20.96 .0601 7.69 16.79 .0651 S.33 18. .9 .0701 8-97 1959 •0751 9.61 20.98 .0602 7.70 16.82 .0652 834 18.22 .0702 8 98 19.61 -•^752 9.62 21.01 .0603 7.71 Ib.85 ■0653 8.35 18.24 •0703 8.99 1964 .'J753 9-63 21.04 .0604 7-73 16.88 .0654 8-37 18.27 .0704 9 01 19.67 •0754 9.61^ 21.07 .0605 7-74 16.90 -0655 8. 38 18.30 .0705 9 02 19.70 -0755 9. 66 21 09 .0606 7-75 16.93 .0656 8-39 1833 .0706 903 1973 .0756 9.67 21 .12 .C607 7-77 16.96 .0657 8.41 18 36 .0707 9.04 '9-75 ■0757 9.68 21.15 .o6r'8 7.78 16.99 .0658 8 42 18.38 .0708 9.06 19.78 .0758 9 70 21.18 .0609 7-79 17.02 .0659 8.43 18.41 .0709 9.07 19.81 -0759 9.71 21.21 .0610 7. So 17.04 .0660 8-44 1S.44 0710 9 oS 19-84 .0760 9.72 21.23 .0611 7.82 17.07 .0661 8.46 18.47 .0711 9.10 19.67 .0761 9 74 21.26 .0612 7.83 17.10 .0662 8.47 18.50 .0712 9.11 19.89 .0762 9-75 21.29 .0613 7.84 17-13 .0603 8.48 18.52 ■0713 9 12 19 92 0763 9 76 21.32 .0614 7.85 17.16 .0664 8-49 1S.55 .0714 9 13 1995 .0764 9-77 21.35 .0615 7.87 17.18 .0665 8.51 18.58 .0715 9-15 19.98 .0765 9-79 21.37 .0616 7.88 17.21 .0666 8.52 18.61 .0716 9.16 20 01 .0766 9 80 21.40 .0617 7.89 17.24 .0667 8.53 18.64 .0717 9.17 20 03 .0767 9 81 21 43 .0618 7.91 17.27 .066S 8.55 18.66 .0718 9 19 20.06 .0768 9-83 21.46 .0619 7.92 17.29 .0669 8.56 18.69 .0719 9.20 20 09 .0769 9.84 21.49 .Ob20 7-93 17 32 .0670 S.57 18.72 .072c 9 21 20.12 .0770 9-85 21.51 .0621 7 94 17 35 .0671 8. 58 18 75 0721 9 22 2(, 14 .0771 986 21-54 .0622 7.9b 1738 ro672 8.60 18. 78 .0722 9.24 20 17 .0772 9. 88 21.57 .0623 7-97 17 41 0673 8.6i iSSo .0723 9 25 20 20 -07"3 9- '9 21.60 .0624 7.98 1743 .0674 8 62 18 83 .0724 9 26 20.23 -0774 9 90 21 63 .0625 8 00 17.46 0675 8 64 18.86 0725 9 27 2(.26 •0775 9.91 21.6'; .0626 8.01 17 49 .0676 8.65 1S.89 .0726 9.29 20. 28 .0776 993 21.68 .0627 8 02 17.52 .0677 8. (-,6 18.92 .0727 9 30 20.31 .0777 9 94 21.71 .0628 8 03 17-55 .0678 8.67 18.94 .0728 9-31 20 34 -0778 995 21.74 .0629 8.05 17.57 .0679 S.69 1S97 .0729 9 33 20.37 .0779 9-97 21.77 .0630 8.06 17 60 .0680 8.70 1 9 (jo .0730 9 34 20 40 .0780 9.98 21.79 .0631 8.07 1763 .0681 8.71 1903 • 0731 9-35 20._;2 .0781 9.99 21 82 .0632 8 09 17.66 17.69 0682 8.72 19.06 0732 936 20 45 .07S2 10. CO 21.85 0633 8.10 .0683 8-74 19 08 0733 938 20. 48 .0783 10.02 21.88 .0634 8 11 17-71 ,0684 8.75 19 II «734 9 39 20 51 .078-1 10 03 21 90 .0635 8.12 I.7-74 .0685 8.76 19 14 ■0735 940 20 54 .0785 10.04 21.93 .0636 8.14 17 77 .06S6 8 78 19 17 0736 9 42 20.56 .0786 10.06 21.96 .,0637 8.r5 17.80 .06S- 8.79 19.19 0737 9-43 20 59 .0787 10.07 21.99 0638 8.16 17-83 .068S 8 80 19 22 1 0738 9-44 20.62 .0788 10 08 22 02 0639 8.17 17-85 .C.689 S.81 19.25 1 -U739 9-45 20 65 .0789 10.09 22.04 0640 8.19 17.88 .0690 8.83 19.28 .0740 9-47 20.68 .0790 10 11,22.07 0641 8.20 1791 .(691 8.84 19-31 .0741 9.48 20.70 .0791 10 12 22.10 0642 8.21 17.94 .0692 8.85 19 33 .0742 9-49 20 73 0792 10.13 22.13 0643 8.23 1797 0693 8 87 19 36 -0743 9-51 20 76 .0793 10 14 22 16 0644 S.24 17.99 .0694 8.88 19 39 ■ 0744 9-52 20.79 .0794 10 1622.18 0645 8.25 18.02 .0695 8.89 19.42 -0745 9 53 20. 82 •0795 10.17 i:2. 21 0646 8.26 18.05 .0696 S.go 1945 .0746 9 54 20.84 .0796 10.18j22.24 0647 8. 28 1808 0697 8.92 19-47 .0747 9 56 20.87 .0797 10.20 22.27 0648 8.29 iS.ii .069S 893 1950 .0748 9 57 20.90 .0798 10.21 22.30 0649 8.30 1S.13 .0699 8-94 19.53 •0749 9-581 20.93 .0799 [0.22 22.32 PiiospiiORic Acid Table. II Ciramme .0800 — 0999. Grm % % Grm. % % Grm. % % Grm. % % 0^ 0' I- 0* 0" tn ci U) 0" rt ti) S 10.23 22.35 S =-' 23-75 S oT U S oT CJ .oSoo .0850 10. 87 .0900 II. 51 25-15 .0950 12.15 26.54 .0801 10.25 22.38 .0851 10.89 23-78 .0901 11-53 25-17 .0951 12.17 26.57 .0802 10.26 22.41 .0852 10.90 23.80 .0902 11-54 25.20 -0952 12.18 26.60 .0803 10.27 22.44 .0853 10.91 2383 .0903 11-55 25-23 -0953 12.19 26.63 .0804 10.29 22.46 .0854 10.93 23.86 .0904 11.56 25.26 -0954 12.20 26.65 .0S05 10.30 22.49 ■0855 10.94 23.89 .0905 11.58 25.29 -0955 12.22 26.68 .0806 10.31 22.52 .0856 1095 23.92 .0906 11-59 25 31 .og56 12.23 26.71 .0807 10.32 22.55 • 0857 10.96 23 94 .0907 11.60 25 34 -og57 12.24 26.74 .0808 1034 22.58 .085S 10.9S 2397 .0908 11.62 25-37 .0958 12.26 2677 .0809 10.35 22.60 .0859 10.99 24.00 .0909 11.63 25 40 -0959 12.27 26.79 .0810 10.36 22 63 .0860 11.00 2403 .0910 11.64 25-43 .0960 12.28 26.82 .0811 10 38 22.66 .0861 11.01 24.06 .0911 11.65 25 45 .0961 12. 2g 26.85 .0S12 10.39 22.69 .0862 11.03 24.08 .0912 11.67 25-4S .0962 12.31 26.88 .0813 10 40 22.72 .0863 11.04 24 II -ogrs 11.68 25-51 .0963 12.32 26.91 .0814 10.41 22.74 .0864 11.05 24.14 -0914 11.69 2554 .0964 12.33 26.93 .0815 10-43 22.77 .0865 11.07 24.17 24 20 -0915 11. 71 25-57 .0965 12.35 26.96 .0816 10.44 22.80 .0866 II. oS .0916 11.72 25-59 .0966 12.36 26.99 .0817 10.45 22.83 .0867 ii.og 24 22 0917 11-73 25 62 .0967 12-37 27 02 .0818 10 46 22 8=; .0868 II 10 24 25 . 09 1 8 11.74 25 65 .0968 12.38 27.05 .0819 1048 22.83 .0S69 II. 12 24.28 .0919 11,76 25-68 .0969 12.40 2707 .0820 10 49 22 gi .0870 II. 13 24- 31 .0920 11:77 25-70 .0970 12.41 27.10 .0821 10.50 22.94 .0S71 II. 14 24 34 .0921 11.78 25-73 .0971 12.42 27 13 .0822 10 52 22.97 .0872 II 16 24 36 0922 [1. 80 25.76 .0972 12.43 27.16 .0823 10 53 22.99 -0873 11.17 24-39 .0923 XI 81 25 79 -0973 12.45 27.19 .0824 10 54 23.02 .0874 II. 18 2442 .0924 11.82 25.82 -0974 12.46 27.21 .0825 10.55 23.05 -0875 II. 19 2445 • 0925 11.83 25.84 -0975 12.47 27.24 .0826 10.57 23 08 .0876 II. 21 24.48 .0926 11-85 25.87 .0976 12.49 27-27 .0827 10.58 23.11 .0877 11.22 24.50 .0927 11.86 25 90 .0977 12.50 27-30 .0828 10.59 23.13 .0S78 11.23 2453 .0928 11,87 25-93 0978 12.51 27-33 .0829 10.61 23.16 .0879 11.25 24 56 .0929 11.88 25.96 .0979 12.52 27-35 .0830 10.62 23.19 .0880 II 26 24-59 ■ 0930 1 1 .90 2598 .0980 12.54 27.38 .0831 10.63 23 22 .088.1 11.27 24.62 0931 II. 91 26.01 0981 12.55 27.41 .0832 10 64 23.25 .0882 11.28 24.64 ■ 0932 II 92 26.04 .0982 12.56 27.44 •0833 10 66 23.27 .0883 11.30 24.67 ■ 0933 11.94 26.07 .og83 12.58 27.47 .0834 10.67 23.30 .0884 II. 31 24.70 .0934 11-95 26.10 .0984 12.59 27.49 •0835 10.68 23-33 .0885 11-32 24-73 -0935 I J. 96 26 12 .0985 12.60 27.52 .0836 10.69 23-36 .0886 11-33 24-75 -0936 11.97 26.15 .09^56 12.61 27-55 .0837 10.71 23 39 .0887 11-35 24.78 -0937 11.99 26.18 .0987 12.63 27.58 .0838 10 72 2341 .0888 11.36 24.81 .0938 12.00 26 21 .0988 12.64 27 60 .0839 1073 23-44 .0889 11-37 24.84 • 0939 12.01 26.24 .0989 12.65 27-63 .0840 10.75 23-47 0890 11-39 24-87 .0940 12.03 26.26 .oggo 12.67 27.66 .0841 10.76 2350 .0891 11.40 24.89 .0941 12.04 26.29 .0991 12.68 27.69 .0842 10.77 23-53 .0892 11.41 24.92 .0942 12.05 26.32 .0992 12.69 27.72 .0843 10.78 23-55 .0893 11.42 24-95 -0943 12.06 26.35 -0993 12.70 27 74 .0844 10.80 23-58 .0894 11.44 24.98 .0944 12.08 26.38 • 0994 12.72 27.77 .0845 10.81 23.61 .0895 11.45 25.01 •0945 12. og 26.40 •oggs 12.73 27.80 .0846 10.82 23.64 .0896 11.46 25-03 .0946 12.10 26.43 .ogg6 12.74 27.83 .0847 10.84 23.67 .0897 11.48 25.06 .0947 12.11 26.46 -0997 12.75 27.86 .0848 10.85 23.69 .0898 11.49 25.09 .0948 12.13 26.49 .0998 12.77 27.88 .0849 10.86 23-72 .0899 11.50 25.12 .0949 12.14 26.52 -0999 12.78 2791 12 Phosphoric Ach) Table. Gramme .1000- -.3 199. Grm. % % Grm. % cf Grm. % fo Grm. 9^ % 0" 0^ 0^ 0^ 0" 0" pT i pj pT .■ 5107 •4854 937 •5"3 • 4859 9-38 .5118 •4864 9 39 ■5123 .4869 940 .5128 • 4874 941 ■5T33 .4880 9 42 ■5139 • 4885 9^43 •5144 .4890 9 44 ■5149 ■4895 9 45 ■ 5154 .4900 9.46 •5159 • 4905 9-47 .5164 ■ 49" 9.48 • 5170 .4916 9-49 ■5175 •4921 9^50 .5180 % 9.71 9.72 9 73 ') 74 9 75 90 91 92 93 9 94 9 95 9.96 Grm, 97 % SiSslio.oi 5i90;io.o2 5196 10.03 5201 5206 5211 5216 5221 5227 5232 10 04 10.05 10.06 :o 07 10 08 10.09 10.10 CJrm. 5237 10.11 5242! 10. 12 5247 5253 5258 5-^63 5268 5273 5278 5284 5289 5294 5299 5304 5310 5315 5320 5325 5330 5335 5341 5346 5351 5356 5361 5366 5372 5377 53S2 5387 5392 5398 5403 5408 5413 5418 5423 5429 5434 5439 10.13 10. 14 10.15 10.16 10.17 10 18 10.19 to. 20 10 21 I0.22 10.23 10.24 10 25 10.26 10 27 10.28 10 29 10.30 10.31 10.32 10.33 10.34 TO.35 10,36 10.37 TO 38 to 39 10.40 10 41 10.42 10.43 10.44 10.45 10.46 10 47 10.48 10.49 rO.50 % 5444; 5449, 5455: 5460 5465; 5470] 5475i 5480' 54S6| 549M 549f> 5501! 5506 5512 5517 5522 5527 5532 5537 5543 5548 5553 5558 5563 5569 5574 5570 5584 5589 5594 5600 5605 5610 5615 5620 5625 5631 5f'36 5641 5646 5651 5657 5662 5667 5672 5677 5682 5688 5693 5698 0.51 0.52 0.53 0.54 0.55 o 56 0.57 0.58 o 59 0.60 0.61 0.62 o 63 0.64 o 65 0.66 0.67 0.68 0.69 0.70 0,71 o 72 o 73 o 74 0.75 0.76 o 77 0.78 o 79 o 80 0.81 o 82 0,83 0.S4 0.85 o 86 0.87 0.S8 o 69 0.90 0.91 0.92 0.93 0.94 ©■95 0.96 0.97 0.98 0.99 1. 00 Grm. % Grm. U y qL q_ qL 'y" ^ ^ .5962 ■5703 II. 01 .5708 11.02 • 5967 ■5714 11.03 •5973 ■5719 11.04 •5978 •5724 II 05 •5983 ■5729 u ,06 5988 •5734 11.07 ■5993 •5739 1 1.08 ■5998 •5745 II 09 .6004 ■5750 II. 10 . 6009 •5755 II II .6014 5760 II. 12 . 60 1 9 576? II 13 6024 ■577' I! 14 . 6030 ■5776 'I. 15 .6035 57S1 II. 16 .604U •5786 II 17 6045 ■5791 II. t5 .6050 •5796 II 19 6055 .5802 11.20 6061 .5807 II. 21 6066 .5812 11.22 .6071 5817 11.23 .6076 .5822 11.24 .6081 .5828 II 2S .6087 .5833 11.26 .6092 ■5838 II 27 6097 ■5843 II. 28 .6102 .5848 11.29 .6107 •5S53 11.30 .6112 .5850 IT 31 .6ri8 .5864 11.32 .6123 .q86() II 33 .6128 ■5874 11-34 6133 ■5879 11-35 .6138 .5884 11.36 6143 .5890 "•37 .61491 •5895 11-38 -6154 .5900 "•39 .6159 • 5905 11.40 .6164 ■ 5910 II. 41 .6169 .5916 ir 42 .6175 ■ 5921 "•43 .6180 .5926 11.44 .6185 •5931 "■45 .6190 ■ 5936 11.46 .6195 • 5941 11.47 .6200 •5947 11.48 •6206 •5952 "49 .6211 •5957 11.50 .6216 Potash Table. 25 Graniiiie .6217— .7770. Grm. ;^ Grm. % Grm. ?o Grm. % Grm. % •Grm. % y y u G y C q_ cH q^ S^ q_ &^ q_ ^, 0^ i2 q_ ^" ^" .64 So 12.51 !^"' 'i^ «" ^ 1^ '^^ w" \£ .6221 12.01 6739 13.01 .6998 13 51 -7257 14.01 7516 14^51 .6226 12.02 .6485 12.52 .6744 13.02 .7003 13-52 .7262 14.02 -7521 14.52 .6232 12.03 .6491 12.53 .6750 13-03 .7009 13-53 .7268 14.03 .7527 14-53 .6237 12.04 . 6496 12.54 ■6755 13-04 -7014 13-54 -7273 14.04 • 7532 14-54 .6242 12.05 • 6501 12.55 .6760 1305 •7C19 13-55 -7278 14-05 •7537 14-55 .6247 12.06 .6506 12.56 .6765 13. c6 .7024 13-56 .7283 14.06 ■7542 14-56 .6252 12.07 .6511 12.57 .6770 13-07 .7029 13-57 .728S 14-07 •7547 14-57 • 6257 12. oS .6516 12.58 •6775 13.08 -7034 13-58 • 7293 14.0S •7552 14^58 .6263 12.09 .6522 12.59 .6781 13.09 .7040 13-59 .7299 14-09 .7558 14-59 .6268 12.10 • 6527 12.60 .6786 13.10 -7045 13.60 13.61 .7304 14.10 • 7563 14.6c .6273 12. II .6532 12.61 .6791 13.11 .7050 .7309 14.11 .756S 14.61 .627S 12.12 ■ 6537 12.62 .6796 13.12 -7055 1362 • 7314 14.12 = 7573 14.62 .62S3 12.13 .6542 12 63 .6801 13-13 .7060 13-63 -7319 14-13 •7578 14-63 .62S9 12.14 .654S 12.64 .6807 13-14 .7066 13-64 -7325 14.14 •7584 14.64 .6294 12.15 ■ 6553 12.65 .6812 13-15 .7071 13-65 -7330 14-15 •7589 14 65 .6299 12.16 .655S 12.66 .6S17 13.16 .7076 13.66 -7335 14.16 •7594 14.66 .6304 12.17 .6563 12.67 .6822 13-17 .7081 13-67 -7340 14.17 •7599 14-67 .6309 12. iS .6568 12.68 .6827 13. iS . 7086 13.68 -7345 14.18 . 7604 14.6S • 6314 12.19 ■6573 12.69 .6832 13-19 .7091 13.69 -7350 14.19 .7609 14.69 .6320 12 20 •6579 12.70 .6838 13,20 -7097 13.70 • 7356 14.20 •7615 14.70 •6325 12.21 .6584 12.71 .6843 13.21 .7102 13-71 -7361 14.21 .7620 14.71 • 6330 12.22 .6589 12.72 .684S 13-22 -7107 13.72 .7366 14.22 •7625 14.72 ■ 6335 12.23 6594 12.73 .6853 13-23 .7112 13-73 • 7371 14.23 .7630 14-73 .6340 12.24 • 6599 12.74 .6S58 13-24 -7117 13-74 -7376 14.24 ■7635 14.74 .6346 12.25 6605 12.75 .6864 13-25 -7123 13-75 -7382 14-25 .7641 14-75 •6351 12.26 .6610 12.76 .6S69 13.26 .7128 13-76 .7.387 14 26 .7646 14-76 ■ 6356 12.27 .6615 12.77 .6874 13-27 -7133 13-77 -7392 14-27 •7651 14-77 .6361 12.28 .6620 12.7S .6879 13.28 -7138 13-78 -7397 14.28 •7656 14.78 .6366 12.29 .6625 12.79 .6S84 13.29 -7143 1379 .7402 14-29 .7661 14.79 • 6371 12 30 .6630 12.80 .6SS9 13 30 -714S 13. So -7407 14-30 .7666 14.80 • 6377 12.31 .6636 12.81 .6895 1331 •7154 13.81 •7413 14-31 .7672 14.81 .6382 12.32 .6641 12.82 ,6900 13-32 -7159 13.82 .7418 14-32 ■7677 14.82 .6387 12.33 .6646 12.S3 .6905 13 33 .7164 13.83 •7423 14-33 .7682 14.83 .6392 12.34 .6651 12.84 .6910 13-34 .7169 13.84 .7428 14-34 • 7687 14.84 •6397 12.35 .6656 12.85 .6915 13-35 -7174 13- 85 •7433 14-35 .7692 14.85 .6402 12.36 .6661 12.86 .6920 13-36 -7179 13.86 -7438 14-36 .7697 14.86 .6408 12.37 .6667 12.87 6926 13-37 -7185 13.87 -7444 1437 •7703 14.87 .6413 12.38 .6672 12.88 .6931 1338 .7190 13-8S -7449 14.38 .7708 14. 88 .641S 12.39 .6677 12.89 .6936 13-39 -7195 13.89 -7454 14-39 •7713 14.89 .6423 12.40 .66S2 12.90 .6941 13-40 .7200 13.90 •7459 14.40 •7718 14.90 .6428 12.41 .6687 12.91 .6946 13-41 -7205 13-91 .7464 14.41 •7723 14.91 •6434 12.42 .6693 12.92 .6952 13.42 .7211 13.92 .7470 14.42 •7729 14.92 •6439 12.43 .6698 12.93 •6957 13-43 .7216 13-93 -7475 14-43 ■7734 14.93 .6444 12.44 .6703 12.94 .6962 13-44 .7221 13-94 -7480 14-44 -7739 14.94 .6449 12.45 6708 12.95 .6967 13-45 .7226 13-95 -7485 14-45 -7744 14-95 .6454 12.46 .6713 12.96 .6972 13.46 .7231 13-96 1 -7490 14.46 -7749 14.96 •6459 12.47 .6718 12.97 .6977 13-47 .7236 13-97 1 -7495 14.47 14.48 •7754 14.97 .6465 12.48 .6724 12.98 .6983 13.48 .7242 13-98 1 •7501 .7760 14.98 .6470 12.49 6729 12.99 .6988 13-49 •7247 13-99 1 14.00 1 -7506 14-49 •7765 14-99 •6475 12 50 .6734 13. CO 1 •6993 13-50 1 .7252 .751114.50 i .777015.00 26 Ammonia Conversion Table. TABLE III. AMMONIA CONVERSION TABLE. The Ammonia Table is constructed for use more particu- larly in fertilizer analyses, but can be used as well in all cases where the per cent, or weight of ammonia gas (NH^) is desired from a known per cent, or weight of nitrogen (N). It is rather to be used, however, to derive per cent, from per cent., since the decimals are not carried far enough for the accurate reading of weights. It extends from o.oi '/( to 15.00;^ of N, or from 0.0 1 'j(\o 18.21 ;;r'of NH.^, being compre- hensive enough to embrace all commercial substances con- taining nitrogenous materials likely to come up for analysis. In cases of substances having larger per cents of N than the table gives, it will suffice to take half the per cent, of N found and then double the per cent, of NH, given in the column opposite. The factor used in constructing this table is (1.2 1396 or) 1.2 14, based on the atomic weight of N, 14.021. If the determination of ammonia is made by the so-called " copper oxide" method, and the N caught and measured, then by Table IV found following this, the weight of N is read from the volume of N (corrected for temperature and air pressure as designated by the thermometric and barometric heights), and from the weight of N, the percent, of N is calculated in a moment's time. Having then the per cent, of N, the per cent, of NH^ is read from the accom- panying "Ammonia Table." In cases where the determination of ammonia is made by the so-called " soda-lime " method, or the modification of the same, the " Ruffle Method," and the N comes off from the combustion combined with H, as NH^, and is caught in a standard solution of HoSO^. then the table is still useful, espe- cially when the solutions are prepared in the following very convenient manner. The standard solution of H^SO^ is made so that each c.c. contains 0.02 gramme of SO3. The KHO solution is made so that i c.c. exactly neutralizes i c.c. of the Ammonia Conversion Table. 27 H^SO^ solution. After the evolution of the NH3 and its absorption in a measured number of c.c. of the H^SO^ solu- tion, the KHO solution is run in from a burette until all the remaining H^SO^ is exactly neutralized (designated best by coralline solution). Subtract the number of c.c. of the KHO used from the total number of c.c. of the H^SO^ solution taken, and the difference in c.c. is twice the per cent. of l>i , provided thdit the amount of substance taken for the analysis was 1.4 grammes. Therefore, take half the differ- ence in c.c. for the per cent, of N and from it read in the table the per cent, of NHg. 28 Ammonia Table. Nitrogen .00- -2.99 »•' X ffi H^ X X • 4 ;?■ ^ ;; 7j Z Z S ^ ;^, izi Z ^' S .00 .00 50 .61 1. 00 I. 21 1-50 1.82 2.00 243 2.50 304 .01 .01 51 .62 1.01 1.23 I-5I 1^83 2.01 2.44 2.5t 305 .02 .02 52 • 63 1.02 1.24 1.52 1.85 2.02 2.45 2.52 3.06 •03 .04 53 .64 1.03 1^25 1-53 1.86 2.03 2.46 2-53 3-"7 .04 .05 54 .66 I 04 1.26 1^54 1.87 2.04 2.48 2-54 3.08 •05 .06 55 .67 1.05 1.27 1-55 1. 88 2.05 2.49 2.55 3.10 .06 .07 56 .68 1.06 1.29 1.56 1.89 2.06 2.50 2.56 3. II .07 .08 57 .69 1.07 1.30 i^57 1. 91 2.07 2.51 2.57 3-12 .08 .10 58 .70 1.08 131 1.58 1.92 2.08 2.53 2.58 3-13 .09 .11 59 .72 1.09 1.32 1^59 1^93 2.09 2-54 2-59 3^i4 .10 .12 60 •73 1. 10 1^34 1.60 1.94 2.10 2.55 2.60 3.16 II • 13 61 •74 I. II 1-35 1. 61 1-95 2. II 2.56 2.61 3-17 12 • 15 62 •75 1. 12 1.36 1.62 1.97 2.12 2 57 2.62 3.18 13 .16 63 .76 i^i3 1-37 1.63 1.98 2.13 2.59 2.63 3^19 14 • 17 64 ■78 1. 14 1.38 1.64 1.99 2 14 2.60 2.64 3.20 15 .18 65 •79 i^i5 1.40 1.65 2.00 2 15 2.61 2.65 3.22 16 .19 66 .So 1. 16 1. 41 1.66 2.02 2.16 2.62 2.66 3-23 17 .21 67 .81 1. 17 1.42 1.67 2 03 2.17 2.63 2.67 3^24 18 .22 68 .83 1. 18 1-43 1. 68 2.04 2.18 2.65 2.68 325 19 •23 69 .84 1. 19 1.44 1.69 2.05 2.19 2.66 2.69 3-27 .20 .24 70 •85 1.20 1.46 1.70 2.06 2.20 2.67 2.70 3.28 .21 •25 71 .86 1. 21 1.47 1.71 2.08 2.21 2.68 2.71 3 29 .22 •27 72 .87 1.22 1.48 1.72 2.09 2.22 2.70 2.72 3 30 •23 .28 73 .Sg 1.23 1.49 1^73 2.10 2.23 2.71 2.73 3 31 .24 .29 74 .90 1.24 i^5i 1-74 2. II 2.24 2.72 2.74 3 33 •25 •30 75 .91 125 1.52 1^75 2.12 2.25 2.73 2^75 3 34 .26 •32 76 .92 1.26 1-53 1.76 2.14 2.26 2.74 2.76 3 35 ■27 •33 77 •93 1.27 1-54 1.77 2.15 2.27 2.76 2.77 3 36 .28 •34 78 •95 1.28 1-55 1.78 2.16 2.28 2.77 2.78 3 37 •29 •35 79 .96 1-29 1-57 1.79 2.17 2.29 2.78 2.79 3 39 •30 •36 80 •97 1.30 1.58 1.80 2.19 2.30 2.79 2.80 3.40 31 •38 Si .98 I-3I 1-59 1. 81 2.20 2.31 2. So 2.81 3-41 32 •39 82 1. 00 1.32 1.60 1.82 2.21 2.32 2.82 2.82 3-42 33 .40 83 1. 01 1-33 1. 61 1.83 2.22 2-33 2.83 2.83 3-44 34 .41 84 1.02 1^34 1.63 1.84 2.23 2.34 2.84 2.84 3-45 35 .42 85 1.03 1-35 1.64 1.8:^ 2.25 2.35 2.85 2.85 3^46 36 •44 86 1.04 1.36 1.65 1.86 2.26 2.36 2.87 2.86 3-47 37 •45 87 1.06 i^37 1.66 1.87 2.27 2.37 2.88 2.87 3.48 38 .46 88 1.07 1.38 1.68 1.88 2.28 2.38 2.89 2.88 3^50 39 ■47 89 1.08 ^•39 1.69 1.89 2.29 2.39 2.90 2.89 3^5i .40 •49 90 1.09 1.40 1.70 1.90 2.31 2.40 2.91 2.90 3^52 41 .50 91 1. 10 1. 41 1. 71 1. 91 2.32 2.41 2^93 2.91 3 53 42 •51 92 t.I2 1.42 1.72 1.92 2-33 2.42 2.94 2.92 3 54 43 •52 93 I-I3 1.43 1^74 1^93 2^34 2-43 2.95 2.93 3 56 44 •53 94 ri4 1.44 1.75 1.94 2.36 2.44 2.96 2.94 3 57 45 •55 95 r^i5 1.45 1.76 1^95 2.37 2.45 2.97 2.95 3 58 46 •56 96 1. 17 1.46 1.77 1.96 2.38 2.46 2.99 2.96 3 59 47 •57 97 1. 18 1.47 1.78 1.97 2.39 2.47 3.00 2.97 3 61 48 ■58 98 1. 19 1.48 1.80 1.98 2 40 2.4S 3.01 2. 98 2.99 3 62 _49 •59 _99 1.20 1.49 1. 81 1.99 2.42 2.49 3.02 363 Ammonia Table. 29 ISitrogfen 3.00—5.99. . J 1 . 1 n E X 1 X 1 X X . X ^ 3-64 ;?! ^ 1 4.0C1 :2; 1 ;zi y-< ^ 6 07 Z ^ 3.00 3 50| 425 1 4,86 4 5t 5.46 5- 30 5.50 6.68 3.01 3 65 3-51 4.26 1 4 Olj 4.S7 4 51 5.48 5-01 6.08 5.51 6.69 3.02 3-67 352 4-27 1 4.02' 488 4 52 5-49 5.02 6.C9 5 52 6.70 3-03 3.68 3-53 4-29 1 4 03 4.89 4 53 5-50 5-03 6 II 5-53 6.71 3-04 3-69 3-54 4-30 i 4-04' 4. go 4-54 5-51 5-04 6.12 5-54 6-73 3-05 370 3-55 431 1 4-05 4.92 4.55 5-52 5 05 6.13 5-55 6-74 3.06 3-71 3-5' 4-32 1 4,06, 4-93 4-56 5.54 506 6.14 5 56 6.75 3-07 3-73 3-57 4-33 4.07 4-94 4-57 5-55 5 071 6.15 1 5-57 676 3 08 3-74 3.58 4-35 4 o& 4 95 4-5^ 5-5f' 5.08! 6.17 \ 5.58 6.77 3-09 3-75 3.59 4.36 4.09 4-97 4-59 5-57 5-09 6 18 5-59 6.79 3.10 3-76 3.6c 4-37 4.10 4.98 4 60 5 58 5 10 6.19 \ 5.60 6. So 3-II 3-78 3.61 4.38 4.11I 4-99 4.61 5.60 1 5-II 6.20 ? 5.61 6.S1 3.12 3-79 3.62 4-39 4.121 5 00 462 S-f'i 5.12 6.22 1 6 23? 6.24 \ 6.25 [ 5.62 6.82 313 3.80 3 63 4.41 4-13' 5.01 4(^3 5:62 5-13 5 63 6.83 314 3-81 364 4.42 4.14 5-03 4.64 5-^'3 5 14 5.64 685 3-15 3.82 3-65 443 4-15 504 465 5-(^5 5-15 5.65 6.86 3.16 3-84 3.66 4-44 4.16 5-05 4.66 5.66 5.16 6.26 6.28 \ 5.66 6.87 3-17 3.85 3.67 4.46 4.17 5. ''6 4.67 5.67 5 17 5.67 6.88 3-18 3.86 3.68 4-47 4.18 5 07 4.68 5. 68 5.18 6.29 6.30 5.68 6 90 3-19 3-87 3-69 4 48 4.19 5-09 4.69 5-69 5^19 5.69 6.91 3.20 3.S8 3-70 4.49 4.20 5.10 4.70 5 71 5.20 6.31 5.70 6.92 3.21 3-90 371 4.=;o 4.21 5" 4.7] 5-72 5 21 6 32 5.71 693 3.22 3 91 3-72 4-52 4.22 5-12 4.72 5-73 5 22 6.34 6.35 5.72 6.94 3-23 3-92 3-73 4-53 4-23 5-M 4-73 5-74 5 23 5.73 6.96 3-24 3-93 3-74 4-54 4.24 5-15 4-74 5^75 5 24 6.36 5.74 6.97 3-25 3-95 3-75 4-55 4-25 5.16 4 75 5-77 5 25 6.37 5.75 6.98 3.26 3-96 3-76 4-56 4.26 5-17 4.76 5.78 5 26 6-39 5.76 6.99 3-27 3-97 3-77 4.58 427 5.18 4-77 5^79 5 27 6.40 5.77 7.00 3.28 3.98 3.78 4-59 4.28 5.20 4.78 5.80 5 28 6.41 5.78 7.02 3-29 3-99 3-79 4.60 4.29 5.21 4-79 5.82 5 29 6.42 5-79 7-03 3.30 4.01 3.80 4.61 4-30 5.22 4.80 5^83 530 6.43 5.80 7.04 3-3' 4.02 3.81 4-63 4-31 5 23 4.81 5-84 5 3i 6.45 5^8i 7-05 3-32 4.03 3.82 4.64 4-32 5 24 4.82 5.85 5 32 6.46 5.82 7.07 3-33 4.04 3 83 465 4-33 5 26 4.83 5. 86 5 33 6.47 5.83 7-o8 3-34 405 3-84 4.66 4-34 5 27 4.84 5.88 5 34 6.48 5-84 709 3-35 4.07 3.85 4.67 4-35 5 28 4-85 5-89 5 35 6.49 5.85 7^io 3.36 4.08 3.86 4.69 4-36 5 29 4.86 5.90 5 .36 6.51 5.86 7. II 3-37 4.09 3.87 4.70 4-37 5 31 4.87 5-91 5 37 6.52 5.87 7.13 3.38 4.10 3.88 471 4.38 5 32 4.88 5^92 5 • 38 6.53 5.88 7.14 3-39 4.12 389 4.72 4-39 5 33 4.89 5-94 5-39 6.54 5^S9 7^15 3-4C 4-13 3-90 4-73 4.40 5-34 4.90 5-95 5^4c 6.56 5.90 7.T6 3-41 4.14 3-91 4-75 4.41 5 35 4.91 5^96 5^4i 5-42 6.57 5.91 7-17 3-42 4-15 3-92 4.76 4.42 5 37 4.92 5^97 6.58 5.92 7.19 3-43 4.16 3-93 4-77 4-43 5 38 4-93 5-99 5-43 6.59 5.93 7^2o 3-4'l 4.18 3-94 4.7S 4-44 5 •39 4^94 6.00 5-44 6.60 5.94 7-21 3-45 4.19 3-95 4.80 4-45 5 40 4-95 6.01 5-45 6.62 5^95 7-22 3-4^ 4.20 3-96 4.81 4.4€ 5 41 4.96 6.02 5-4e 6.63 5.96 7.24 3-4/ 4.21 3.97 4 82 4-47 5 •43 4.97 6.03 5.4; 6.64 5-97 7.25 3-45 4.22 3.98 4-83 4.4^ 5 ■44 4.98 6.05 5.4^ 6.65 5.98 7.26 3-4C 4.24 1 3-99 484 4.4c }\ 5 •45 4.99 6.06 5-4^ ) 6.60 5-99 7^27 • Ammonia Table. Nfitrogeii 6.00—8.99. X X X X X X ^ 2 ^ 2 2 z Z, 2 2 8.00 2 9.71 2 2 6.00 7.28 6.50 7.89 7.00 8.50 7-50 9. 1 1 8.50 10.32 6.01 7 30 6.51 7 90 7.01 8.51 7- 51 9.12 8.01 9.72 8.51 10.33 6.02 7 31 6.52 7 92 7 02 8. 52 7- 52 9-13 8.02 9-74 8.52 10.34 6.03 7 32 f>-53 7 93 7-03 8.53 7- 53 9.14 8.03 9-75 8.53 10.36 6.04 7- 33 6.54 7 94 7.04 8.55 7- 54 9-^5 8.04 9.76 8.54 10.37 6.05 7 34 6.55 7 95 7-05 8.56 7- 55 9.17 S.05 9-77 8.55 10.38 6.06 7 36 6.56 7 96 7.06 8.57 7- 56 9.18 8.06 9.78 8.56 10.39 6.07 7 37 6.57 7 98 7.07 8.58 7- 57 9.19 8.07 9.80 8.57 10.40 6.08 7 38 6.58 7 99 7.08 8.60 7- 58 9.2c 8.08 9.81 8.58 10.42 6.09 7 39 6.59 8.00 7.09 8.61 7 59 9.21 8.09 9.S2 8.59 10.43 6.10 7.41 6.60 8.01 7.10 8.62 7.60 9-23 8.10 9-83 8.60 10.44 6. 1 1 7.42 6.61 8.02 7 ri 8.63 7.61 9.24 S.ii 9-85 8.61 10.45 6.12 7-43 6.62 8.04 7 12 8.64 7.62 9-25 8 12 9.36 8.62 10.46 6.13 7-44 6.63 8.05 7 13 3.66 7-63 9.26 3.13 9.37 8.63 10.48 6.14 7.45 6.64 8.06 7 14 8.67 7.64 9.27 8.14 9.83 8.64 10.49 6.15 7-47 6.65 8.07 7 15 8.63 7.65 9.29 8.15 9.39 8.65 10.50 6.16 7.4S 6.66 8.09 7 16 8.69 7.66 9.30 8.16 9.91 8.66 10.51 6.17 7-49 6.67 8.10 7 17 8.70 7.67 9-31 3.17 9.92 3.67 10.53 6.18 7-50 6.68 8. II 7 18 8.72 7.68 9-32 8.18 9-93 8.68 10.54 6 19 7-51 6.69 8 12 7 19 8.73 7.69 9-34 8. 19 9^94 8.69 10.55 6,20 7.53 6.70 8.t3 7.20 8. 74 7.70 9' 35 8.20 9 95 8.70 10.56 6.21 7-54 6.71 8.15 7.21 8.75 7 71 936 8.21 9-97 8.71 10.57 6.22 7-55 6.72 8.16 7.22 8.77 7 72 9-37 8.22 9. 98 S.72 10.59 6.23 7.5() 6.73 8.17 7-23 8.78 7 73 9-38 S.23 9-99 8.73 10.60 6.24 7.58 6.74 8.1S 7.24 8.79 7 74 9.40 8.24 10.00 8.74 10.61 6.25 7.59 6.75 8.19 7-25 8.80 7 75 9.41 8.25 10.02 8.75 10.62 6.26 7.60 6.76 8.21 7.26 8. Si 7 76 9.42 8.26 10.03 8.76 10.63 6.27 7.61 6.77 8.22 7.27 8.83 7 77 9-43 8.27 10.04 8.77 10.65 6.28 7.62 6.7S 8. 23 7.28 3. 84 7 78 9.44 8.28 10.05 8.73 10.66 6.29 7.6l 6.79 8.24 7.29 8.85 7 79 9.46 8.29 10.06 8.79 10.67 6.30 765 6.80 8.26 7-30 8.86 7.80 947 8.30 10.08 8.3o 10.68 6.31 7.66 6.81 8.27 7 31 S 87 7 81 9.48 8.31 10.09 8.81 10.70 6.32 7 67 6.82 3. 28 7 32 8 89 7 82 9.49 8.32 10.10 8.82 10.71 6.33 7 68 6.83 8.29 7 33 8 90 7 83 9-51 8.33 10. 1 1 8.83 10.72 6.34 7 70 6.84 8.30 7 34 8 91 7 84 9-52 8.34 10.12 S.84 10.73 6-35 7 71 6.85 8.32 7 35 8 92 7 85 9-53 8.35 10.14 8.85 10.74 6.36 7 72 6.86 8.33 7 36 8 94 7 86 9-54 S.36 10.15 8.86 10.76 6.37 7 73 6.87 8.34 7 37 8 95 7 87 9^55 8.37 10.16 8.87 10.77 6.38 7 75 6.88 8.35 7 38 3 96 7 83 9-57 8.38 10.17 8.88 10.78 6.39 7 76 6.89 8.36 7 39 8 97 7 89 958 8.39 10.19 3.89 10.79 6.40 7-77 6.90 8.38 7.40 8. 98 7.90 9-59 8.40 10.20 8.90 10.80 6.41 7 78 6.91 8 39 7 41 9.00 7 91 g.6o 8.41 10.21 8.91 10.82 6.42 7 79 6.92 8 40 7 42 9.01 7 92 9.61 8.42 10.22 8.92 10.83 6.43 7 81 6.93 8 41 7 43 9.02 7 93 9-63 8.43 10.23 8.93 10.84 6.44 7 82 6.94 8 43 7 44 9>o3 7 94 9.64 8.44 10.25 8.94 10.85 6.45 7 .83 6.95 8 44 7 45 9.04 7 95 965 8.45 10.26 8.95 10.87 6.46 7 84 6.96 8 45 7 46 9.06 7 96 966 8.46 10.27 8.96 10.88 6.47 7 85 6.97 8 46 7 47 9.07 7 97 9.68 8.47 10.28 8.97 10.89 6.48 7 87 6.98 8 47 7 48 9.08 7 98 9.69 3.48 10.29 8.98 10.90 6.49 7 88 6.99 8 49 7 _49 9.09 _7 _99 9.70 8.49 10.31 8.99 10.91 Ammonia Tai5LE. Biitrogfeti 9.00— 11.99. 31 X HH E X ■-pi X 12; ^ ^ 1 S •iZ 12.14 ^ ^ ^ S iz; ;z; 9.00 10.93 9 -50 "•53 10.00 10.50 12.75 11.00 13^35 11.50 13.96 9.01 10.94 9- 51 "•55 10.01 12.15 10.51 12.76 II. 01 13^37 II. 51 13-97 9.02 10.95 9- 52 11.56 10.02 12.16 10.52 12.77 11.02 I3^3S 11.52 13-99 903 10.96 9- 53 "•57 10.03 12.18 10.53 12.78 11.03 13^39 "•53 14. CO 9.04 10.97 9- 54 11.58 10. u4 12.19 10.54 12.80 11.04 13.40 "-54 14.01 9-05 10.99 9- 55 "•59 10.05 12.20 10.55 12.81 11.05 i3-4i "■55 14.02 9.06 11.00 9 56 II. 61 10.06 12.21 10.56 12.82 11.06 I3^43 11.56 14.03 9.07 II. 01 9 57 II. 63- 10.07 12.22 10.57 12.83 11.07 13^44 "•57 14.05 9.08 11.02 9 58 11.63 10.08 12.24 10.58 12.84 11.08 13^45 11.58 14.06 9.09 11.04 9 59 11.64 10.09 12.25 10.59 12.86 11.09 I3^46 "-59 14.07 9.10 11.05 9.60 11.65 10.10 12.26 10.60 12.87 II. 10 13.48 11.60 14.0S 9.II 11.06 9.61 11.67 10.11 12.27 10.61 12.88 II. II 13-49 II. 61 14.09 9.12 11.07 9.62 11.68 10.12 12.29 10.62 12.89 II. 12 13^50 11.62 14.11 9-13 11.08 9-63 11.69 10.13 12.30 10.63 12.90 11.13 13.51 11.63 14.12 9.14 II. 10 9.64 11.70 10.14 12.31 10.64 12.92 11.14 13-52 11.64 I4^i3 9-15 11. II 9.6s 11.72 10.15 12.32 10.65 12.93 11.15 13-54 11.65 14.14 9.16 II. 12 9.66 11.73 10.16 12.33 10.66 12.94 11.16 13-55 11.66 14.16 9.17 II. 13 9.67 11.74 10.17 12.35 10.67 12.95 II. 17 13-56 11.67 14.17 9.18 II. 14 9.68 11.75 10.18 12.36 10. 68 12.97 II. 18 13-57 11.68 14.18 9.19 II. 16 9.69 11.76 10.19 12.37 io.6g 12 98 II. 19 13-58 11.69 14.19 9.20 II. 17 9.70 11.78 10.20 12.38 10.70 12.99 11.20 13.60 11.70 14.20 9.21 II. 18 9 71 11.79 10.21 12.39 10.71 13.00 II. 21 13.61 II. 71 14.22 9.22 II. 19 9 72 11.80 10.22 12.41 10.72 13.01 11.22 13.62 11.72 14-23 9-23 II. 21 9 73 11.81 10.23 12.42 10.73 13-63 11.23 13-63 "-73 14.24 9.24 11.22 9 74 11.82 10.24 12.43 10.74 13.04 11.24 13-65 11.74 1425 9-25 11.23 9 75 11.84 TO. 25 12.44 10,75 13-05 11.25 13.66 "•75 14.26 9.26 11.24 9 76 II. S5 10.26 12.46 10.76 13. l6 11.26 13.67 11.76 14.28 9.27 11.25 9 / / 11.86 10 27 12 47 10.77 13-07 11.27 i3^68 11.77 14.29 g.28 11.27 9 78 11.87 IO.2S 12.48 10.78 13.09 II. 28 13.69 11.78 1430 9.29 11.28 9 79 11.89 10.29 12.49 10.79 13.10 11.29 i3^7i 11.79 I4^3i 9-30 11.29 9.80 11.90 10.30 12.50 10.80 13.11 II 30 13.72 11.80 I4^33 9-31 11.30 9.81 1 1 . 9 1 10.3] 12.52 10.81 13 12 II. 31 I3^73 11.81 14.34 9 32 II. 31 982 11.92. 10.32 12.53 10.82 13 14 11.32 13^74 11.82 14.35 9-33 11-33 9 83 "•93 10.33 12.54 10.83 13 15 "-33 I3^75 ".83 14.36 9-34 11-34 9.84 "•95 10.34 12.55 10.84 13 16 "-34 13-77 11.84 14^37 9-35 11-35 9-85 11.96 10.35 12.^6 10. 8=; 13 17 "•35 13.78 11.85 1439 9-36 11.36 9.86 11.97 10.36 12.58 10.86 13 18 11.36 13-79 11.86 14.40 9-37 11-38 9.S7 11.98 10.37 12.59 10.87 13 20 "-37 13.80 11.87 14.41 9-38 11-39 9,88 11.99 10.38 12.60 10, 88 13 21 11. 3& 13.82 11.88 14.42 9-39 II 40 9.89 12.01 10.39 12.61 10.89 13 22 "-3Q 13-83 11.89 14 43 9.40 II. 41 9.90 12.02 10.40 12.63 10.90 13.23 11.40 13-8^ 11.90 14^45 9.41 11.42 9 .91 12.03 10.41 12.64 10.91 13 24 11.41 13-85 11.91 14.46 9.42 11.44 9 .92 12.04 10.42 12.65 10.92 13 26 11.42 13-86 11.92 14^47 9-43 11.45 9 93 12.06 10.43 12.66 10.93 '3 27 "-43 13 88 "•93 14.48 9.44 11.46 9 •94 12.07 10.44 12.67 10.94 13 28 11.44 13-89 11.94 14.50 9-45 11.47 9 ■95 12.08 10.45 12.69 10.95 13 29 "•45 13.90 "•95 1451 9.46 11.48 9 .96 12 09 10.46 12.70 10. 9f 13 31 11.46 13-91 11. 9f 1452 9-47 11.50 9 •97 12.10 10.47 12.71 10. Q7 13 32 11.47 13.92 11.97 14 53 9.48 II. 51 9 .98 12.12 10.48 12.72 10.98 113 33 11.48 1394 11.98 14-54 9-49 11.52 9 ^ !12.13 10.49 12.73 10 99 hi 34 "•49 13-95 11.99 I14.56 32 Ammonia Table. Nitrog en 12.00- -14.99. X « 05 Jc T-' z /', ;s Z 13 00 z ^ 2 14.00 2 ■z 14.50 S 12.00 14-57 12.50 15.18 15-78 13-50 16.39 17.00 17.60 12. OI 14 58 12.51 15-19 13.01 15 79 13 51 16.40 14 01 17.01 14 51 17.62 12.02 14 59 12.52 15.20 13.02 15 81 13 52 16.41 14.02 17.02 14 52 17 63 12.03 14 60 12.53 15.21 13-03 15 82 '3 53 16.43 14.03 17-03 14 53 17.64 12.04 14 62 12 54 15.22 13-04 15 83 13 54 16 44 14.04 17.04 14 54 17-65 12.05 1463 12.55 15-24 13-05 15 84 13 55 16.45 1405 17.06 14 55 17.66 12.06 1464 12.56 15-25 13.06 15 85 13 56 16.46 14.06 17,07 14 56 17.68 12 07 14 65 12.57 15.26 13.07 15 87 13 57 16.47 14.07 17.08 14 57 17-69 12. oS 14.67 12.58 15-27 13.08 15 88 13 58 16.49 14.0S 17.09 14 58 17.70 12.09 14.68 12.59 15.28 13.09 15.89 13-59 16.50 14.09 17. II 14 59 17.71 12.10 14.69 12.60 15-30 13.10 15-90 13.60 16.51 14.10 17.12 14.60 17.72 12. II 14 70 12.61 15 31 13 II 15 92 13.61 16.52 14. II 17-13 14.61 17-74 12.12 14 71 12.62 15 32 13 12 15 93 13.62 16.53 14.12 17-14 14.62 17-75 12.13 14 73 12.63 15 33 13 13 15 94 13-63 16.55 14-13 17-15 14-63 17.76 12.14 14 74 12.64 15 34 13 14 15 95 13-64 16.56 14.14 17-17 14.64 17-77 12.15 14 75 12.65 15 36 13 IS 15 96 13-65 16.57 1415 17.18 14-65 17.79 12.16 14 76 12.66 15 37 13 16 ■5 98 13 66 16.58 14.16 17-19 14.66 17. So 12.17 14 77 12.67 15 38 13 17 rs 99 13.67 16.60 14.17 17.20 14.67 17.81 I2.1S 14 79 12.68 15 39 13 18 16 00 13.68 16.61 14.18 17.21 14-68 17.82 12.19 14 80 12.69 15 41 13 19 16 01 13.69 16.62 14.19 17.23 14.69 17.83 12.20 14.81 12.70 15-42 13.20 16.02 13.70 16.63 14 20 17.24 14.70 17-85 12.21 14.82 12.71 15 43 13 21 16.04 13 71 16.64 14 21 17 25 14 71 17.86 12.22 14.84 12.72 15 44 13 22 16.05 13 72 16.66 14.22 17 26 14 72 17-87 12.23 14.85 12.73 15 45 13 23 16.06 13 73 16.67 14-23 17 28 14 73 17. 88 12.24 14.86 12.74 15 47 13 24 16.07 13 74 16.68 14.24 17 29 14 74 17.89 12.25 14.87 12.75 15 48 13 25 16.09 13 75 16.69 14-25 17 30 14 75 17-91 12.26 14,88 12.76 15 49 13 26 i6.io 13 76 16.70 14.26 17 31 14 76 17.92 12.27 14.90 12.77 15 50 13 27 16. 11 13 77 16.72 14-27 17 32 14 77 17-93 12.28 14.91 12.78 15 51 13 28 16.12 13 78 16.73 14 28 17 34 14 78 17-94 12.29 14.92 12.79 15 53 13.29 16.13 13 79' 16. 74 1 14 29 17 35 14-79 17.96 12.30 1493 12.80 15-54 13-30 16 15 13.80 16.75 14.30 17-36 14.80 17-97 12.31 14 94 12.81 15 55 13 31 16 16 1381 16.77 14-31 17 37 14 81 17.98 12.32 14 96 12.82 15 56 13 32 16.17 13-82 16.78 14-32 17 38 14 82 17.99 ^2.33 14 97 12. S3 15 58 13 33 16.18 13-83 16.79 14-33 17 40 14 83 18.00 12.34 14 98 12.84 15 59 13 34 16.19 13-84 16.80 14-34 17 41 14 84 18.02 12.35 14 99 12.85 15 60 13 35 16.21 13-85 i6.8i 14-35 17 42 14 85 18.03 12.36 15 01 12.86 15 61 13 36 16.22 13-86 16.83 14-36 17 43 14 86 18.04 12.37 15 02 12.87 It; 62 13 37 16.23 13-87 16.84 14-37 17 45 14 87 18.05 12.38 15 03 12.88 15 64 13 38 16.24 13.88 16.85 14.38 17 46 14 88 18.06 12.39 15 04 12.89 15 65 13 39 16.26 13.89 16.86 14-39 17 47 14 89 18.08 12.40 15-05 .12.90 15.66 13.40 16.27 13 90 16.87 14.40 17.48 14.90 18.09 12.41 15 07 12.91 15.67 13 41 16.28 13-91 16.89 14-41 17 49 14 91 iS.io 12.42 15 08 12.92 15.68 13 42 16.29 13 92 16.90 14-42 17 51 14 92 iS.ii 12.43 15 09 12.93 15.70 13 43 16.30 13 93 16.91 14-43 17 52 14 93 18.13 12.44 15 10 12.94 15-71 13 44 16.32 13 94 16.92 14-44 17 53 14 94 18.14 12.45 15 II 12.95 15-72 13 45 16.33 13 95 16.94 14-45 17 54 14 95 18.15 12.46 15 13 12.96 15-73 13 46 16.34 13 96 16.95 14.46 17 55 14 96 18.16 12.47 15 14 12.97 15-75 13 47 16.35 13 97 16.96 14-47 17 57 14 97 18.17 12.48 15 15 12.98 15-76 13 48 16.36 13 98 16.97 14.48 17 58 14 98 18.19 12.49 15.16 1 12.99 15-77 13-49 16.38 13.99I16.98 14.49 17 59 14.99 18.20 Nitrogen Conversion Table. 33 TABLE IV. NITROGEN CONVERSION TABLE. (Volume of N to weight of N). The following table is adapted from that of F. Frerichs, published in Germany in 1877. It gives the weight of one cubic centimetre of nitrogen, for all variations of tempera- ture and barometric height, the latter being given in both millimetres and inches. Multiply the volume of N found by the weight of one c. c. at the observed temperature and pressure and the weight of the N in milligrammes is ob- tained. Fractions of a thermometric degree or of a millimetre may be disregarded since the error thus arising is less than that incident to imperfect reading of the volume of N. Generally the errors caused by incorrect reading of baro- metric height and of temperature will equalize each other. 34 Nitrogen Table. 1- qj a 726 mm. 28. 58 in. 1. 1927 727 mm. 28.62 in. 1. 1944 728 mm. 28.66 in. 729 mm. 28.70 ill. 730 m m . 28.74 in. I 1993 1.J945 I. 1895 1.1846 1.1797 I 1747 1. 1697 1.1647 1.1598 I. 1548 731 mm. 28 78 in. 732 mm. 28.82 ill. 733 mm. 28.86 in. 734 mm. 28.90 in. o° I. i960 1.1977 1 2010 1.2026 1.2043 I 2059 1° 2° 3' 4" 5° 6° 7" 8° 9° I. 1879 I. 1829 I. 1781 1.1731 1. 1682 I. 1632 I 1583 I 1533 I. 1484 I- 1433 1. 1895 1.1S46 I 1797 1.1748 1. 1698 1.1649 1. 1599 1. 1549 1.1500 I. 1449 1. 19 1 2 1. 1862 1.18:4 1.1764 1.1714 I. 1665 I 1615 1.1566 1.1516 1. 1465 1. 1928 1.1879 1.1830 1.1780 I-I731 1.168T 1. 1631 1. 1582 1 1532 I.1481 1.1432 1.1380 11329 I. 1279 1.1227 I. "75 I. 11 24 I 1070 1.1017 1.1961 1.1911 1 1863 1.1813 1.1763 1.1713 1. 1664 1. 1614 1-1564 1.1978 1.1928 1.1879 1.1S29 1.1779 1.1729 1.1680 1.1630 I. 1580 1.1994 1.1944 1.1895 1-1845 1.1796 I 1746 1.1696 1.1646 I. 1596 I-I545 1. 2011 I. 1961 1.1912 1.1862 1.1812 1. 1 762 I. 1712 1.1662 1. 1612 IO° 1.1497 1.1513 1.1529 1.1561 11° 12' 14° 16° 17 18' 19° 1.1384 1.1332 I. 1282 1.1231 1. 1 1 80 I.II2S 1. 1077 I 1023 1. 0971 T.1400 I. 1348 I. 1298 I. 1247 1. 1 196 1.1144 I. 1092 1. 1039 1 0986 1.1416 1. 1364 1-1314 I. 1263 1.1211 1.1160 i.rioS 1. 1054 1. 1002 1.1448 1.1396 I-I345 I. 1294 I 1243 1.1191 1.1139 1.10S5 1.1033 1.1463 1.1412 1.1361 I. 1310 I 1258 1.1207 I 1155 1 IIOI 1.1048 1.0994 I. 1479 1.1427 I-1377 I 1326 I 1274 1. 1222 1 1170 1.1116 I. 1064 I- 1495 1 .1443 1.1392 1.1342 1.1290 1.1238 1.1186 1.I132 1.1079 1.1511 1.1459 I 1408 1-1357 1-1305 I-1253 1.1201 1 1147 1.1095 20° I 0917 1-0933 I 0948 1.0964 1.0979 I. 1010 1 1025 T.0970 r.0915 1.0860 1.0804 1.0746 1.0689 1.0631 1.0572 1.0511 1 . 1 04 1 21° 22° 23' 24° 25° 26° 27° 28° 29° 1.0863 1.0808 I.0753 1.0697 1.0640 1.0583 1.0526 1.0467 1.0406 10347 I 0878 1.0824 1.0768 1. 0712 1.0655 1.0598 1-0541 1,0482 I. 0421 1.0894 I 0S39 1.0783 1.0728 1.0670 1.0613 1.0556 1.0497 1.0436 I 0901) 1 0854 1.0799 1-0743 1.0685 1.0628 1.0571 I. 0512 I-0451 1.0924 I 0869 1.0814 1.0758 1 . 0700 1 . 0644 1.0586 1.0527 1.0466 1.0940 1.0885 1.0829 1-0773 1.0715 1.0659 1.0601 1.0542 1 . 048 1 I 0955 1.0900 1.0844 1.0788 1. 0731 I 0674 1.0616 1-0557 1.0496 I 0986 I-0931 1..875 i.oSig 1.0761 1.0704 1 0646 1.0587 1.0526 30° 1.0362 1.0377 1-0392 1 .0407 1.0421 1.0436 1.0451 1.0466 31° 32° 33° 34° 35° 1.0285 1.0222 I. 0159 1.0093 1.0028 1.0300 1.0237 1. 0174 I. 0107 1.0042 1-0315 1. 0251 1.0188 1.0122 1-0057 1.0329 1.0266 1.0203 1.0137 1.0072 I 0344 1.0281 1.0218 1.0152 1.0086 1-0359 I 0296 1.0233 1. 0166 1.0101 1-0374 1.0311 1.0247 1.0181 i.oiiC 1.0389 1.0325 1.0262 1.0196 I. 0130 1.0404 1.0340 1.0277 1.0210 1.0145 Nitrogen Table. 35 Degrees 735 mm. 28.94 in. 736 mm. 28.98 in. 737 mm. 29 02 m. 738 mm 29.06 in. 739 m m . 29 09 in. 740 mm. 29.13 m. 741 mm. 29.17 in. 742 mm. 2g.2i in. 743 mm. 29.25 ill. O" 1.2076 I . 2092 1. 2109 I. 2125 I. 2142 1.2158 1.2175 I. 2192 1.2208 2 3' I 2027 1. 1977 1. 1928 1.2043 11993 I 1944 1 . 2060 1 2010 I.1961 1.2076 1.2026 1.1977 1.2093 1.2043 I -1993 1 . 2 1 09 1.2059 I. 2010 I. 2126 1.2075 1.2025 1.2142 1.2092 1.2041 1-2159 1.2108 1.2058 4° 5" 6' 1. 1878 1. 1828 1.1778 1.1894 1. 1844 I. 1794 I.1911 1. 1860 i.iSio I 1927 1.1877 1. 1827 I -1943 1. 1893 1. 1843 1-1959 I. 1909 1.1859 I. 1976 I 1925 1.1875 1. 1992 1.1942 I. 1891 1.2008 1.1958 I. 1907 7° 8 1. 1728 1.3678 I. 1628 I 1744 1. 1694 1. 1644 I. 1760 I 1710 I. 1660 1. 1776 1. 1726 I. 1676 1. 1792 1.1742 I. 1692 i.i8og 1.1758 1 1 70S 1.1825 1-1774 1-1724 I.1841 I 1790 1.1740 1-1857 I. 1807 1.1756 10° I.I577 I. 1527 1. 1475 1.1424 I-I593 1 . 1 609 I. 1625 1.1641 1.1657 1.1673 I. 1622 I-I570 I.1519 1.16S9 1.1705 11° 12' 13' I- '543 1.1491 I. 1440 I-I559 1.1507 1.1456 I-I575 1.1523 I 1471 1-1591 I-1538 I. 1487 I. 1606 1.1554 1-1503 I. 1638 I. 1586 I-I534 1.1654 I. 1602 1.1550 14° 16 = 11373 I. 1321 1. 1269 1. 1389 I 1337 1.1285 1.1404 1.1352 1.T300 I. 1420 1.1368 I 1316 t.1436 1.1384 I-I331 1.1452 1 1399 11347 1.1467 1.1415 1.1363 1.1483 1.1431 1.1378 1.1499 1.1446 1.1394 17° 18° 19° 1.1217 1.1163 I. mo I. 1233 1.1179 1.1125 I. 1248 1.1194 1.1141 1. 1264 1.1210 1.1156 1.1279 1. 1225 1.1172 1.1295 I.I24t 1. 118) 1.1310 I. 1256 I. 1203 I. 1326 I. 1272 I. 1218 1.1342 1. 1287 1. 1234 20 I 1056 I loui i.c,946 1.0890 I 1071 I 1087 I.IIO'J i.i 1 It 11133 1.107S I. 1023 1 . 0966 I. 1148 I. 1164 1.1179 21' 22 23" I 1016 ;.og6i 1.0905 I 1032 i.o()77 1. 092 1 I. 1047 1.0992 I 0936 I. 1062 1.1007 1.0951 1.IU93 1.103& I 0982 1.1108 11053 1.0997 1.1124 I. 1068 1.IG12 24 25'^ 26 1.0S34 1.0776 I. 0719 I 0849 I. 0791 I 0731 1.086J I 0806 1.0749 1.08S0 I. 0821 I 0764 1.0895 1 0S37 I 0779 I. 0910 1.0S52 1.0794 1.0925 1.0867 i.oSio 1.094c 1.0882 1.0825 1.0956 1.0S97 1.0840 27° 28 = 29' I 0661 1.0602 I. 0541 1.0676 1. 0617 I 0556 1. 0691 I 0632 1. 0571 1.0706 1.0647 1.0586 1. 0721 1.0662 1.0601 1.0736 1.0677 I. 0616 1.0751 1.0692 1.0631 I 0766 1.0707 1.0646 1. 0781 r.0722 1. 0661 30° 1.0481 1.0496 1.0511 1.0526 1. 0541 1 0555 1.0570 1.0585 1.0600 31° 32' 33° I. 0419 I.0355 1.0292 1-0433 1.0370 1.0306 r.0448 1.0385 1. 0321 1.0463 1.0399 1.0336 1.0478 1. 0414 10351 1.0493 1.0429 1.0365 1.0508 1.0444 1.0380 1.0522 10459 1.0395 I.0537 1.0473 1.0410 34° 35° 1.0225 1. 0160 1.0240 1. 0174 1.0254 i.oiSf) 1.0269 I.020<: I 028.^ I. 0218 1.0299 1.0233 1.0313 1.0248 I 0328 1.0262 1.0343 1.0277 36 Nitrogen Table. 0) (U J, So S 744 mm. 29.29 in. 745 mm. 29-33 in. 746 mm. 29.37 in. 747 mm. 2941 in. 748 mm. 2945 in. 749 mm. 2949 in. 750 m m . 29.53 in. 1.2324 751 nim. 2957 in. 1.2340 752 mm. 29.61 in. o° 1.2225 I. 2241 1.2258 1.2274 1.2291 1.2307 1.2357 1° 2° 3° 4° 5° 6' 7" 8" 9° 12175 1. 2125 1.2074 1.2025 I 1974 I. 1924 1.1873 I. 1823 I. 1772 1. 2192 1. 2141 T . 2090 I. 2041 1.1990 I. 1940 I. 1889 1.1839 1. 1788 1.2208 1. 2158 1.2107 1 2057 1.2007 1. 1956 1 1905 1.1855 I. 1804 1.2225 1.2174 1 2123 1.2074 1 2023 1.1972 1.192 1 1.1871 1.1820 1.2241 1 . 2 1 90 1.2140 1 . 2090 1.2039 1.1988 1.1938 1.1887 1.1836 1.1784 1.1734 1.1681 1.1629 1.1577 11525 1.1472 1.1419 1.1365 I. 1311 1.2258 1.2207 1.2156 1.2106 1-2055 1.2005 1-1954 1 - 1 903 1.1852 1.2274 1.2223 I. 2172 I 2122 1.2072 1.2021 1.1970 I. 1919 1.1868 1 2291 1.2240 1.2189 1.2139 1.2088 1.2037 1.1986 I-1935 1 1884 1.2307 1.2256 1.2205 1.2155 1.2104 1.2053 1 . 2002 1.1 51 1.1900 lO^ 1.1721 11737 11753 1. 1769 1.1800 1.1816 1.1832 1.1848 11° 12° 13" 14° 15° 16° 17' 18° 19° I. 1670 1.1618 I. 1566 1-1515 I. 1462 1.1410 I-I357 1-1303 1.1249 1. 1686 1.1633 I. 1582 1-1530 1,1478 I. 1425 I. 1373 I.1318 I. 1265 1. 1702 1.1649 1.159S ] 1546 1.1493 1.1441 1. 1388 11334 1.1280 1 1718 I 1665 1.1613 1.1562 1.1509 1.1456 1.1404 1-1349 1.1296 1-1750 1.1697 1.1645 1.1593 I 1540 I. 1488 I.I435 1.1380 1.1326 1.1765 1.1713 1.1661 I. 1609 1.1556 1.1503 1.1450 1-1396 1-1342 1. 1781 1.1728 1-1677 I- 1625 1.1572 1.1519 1.1466 1.1411 1-1357 I -1303 11797 1.1744 1.1692 1.1640 1.1587 1-1535 1. 1482 1.1427 1-1373 20° 1.1195 1.1139 1.10S4 I. 1027 I. 0971 I. 0912 1-0855 1.0796 1.0737 1.0676 r.i2io 1.1225 1.1241 1.1256 1.1272 1.1287 1.1318 21° 22° 23° 24° 25° 26° 27° 28° 29° I.II55 1.1099 1. 1043 1.0986 1.0927 1.0870 1.0811 1.0752 1.0690 1. 1170 1.1114 1.1058 I. 1001 1.0943 1.0885 1.0827 1.0767 1.0705 1.11S5 1. 1130 1. 1073 1.1016 1.0958 1 . 0900 r.0842 1.0782 1.0720 1.1201 1.1145 1.1088 1.1032 1.0973 1.0915 1.0S57 1.0797 1-0735 1. 1216 1.1160 1.1103 1.1047 1.0988 1.0930 1.0872 I. 0812 1 0750 I-1231 1.1176 i.iiig 1.1062 1.1003 1-0945 1.0887 1.0827 1.0765 1.1247 1.1191 1.1134 1.1077 1.1018 1.0961 1 . 0902 1.0842 1.0780 1.0719 1.1262 1.12C6 11149 1.1092 1.1034 1.0976 1.0917 1.0857 1-0795 30° 1. 0615 1.0630 1.0645 1.0660 1-0675 1.0690 1.0704 1-0734 31° 32° 33° 34° 35° 1-0552 1.0488 1.0424 1-0357 1. 0291 1.0567 1.0503 1.0439 1.0372 1.0306 1.0582 1.0518 1.0454 1.0387 1.0321 1-0597 1-0533 1.0469 I. 0401 I.0335 1.0612 1-0547 1.0483 1.0416 I-0350 1.0626 1.0562 1.0498 1 0431 1.0365 I. 0641 1-0577 1-0513 1.0446 1.0379 1.0656 1.0592 1.0528 1.0460 1.0394 1.0671 1.0607 1.0542 1.0475 1.0409 NriROGEN Tablk. 37 753 754 755 756 757 758 759 760 761 1.2296 1.2244 1. 2192 1.2140 1.2088 1-2571 1.2519 1.2467 1. 241(1 1.2364 1. 2312 1.2260 1.2208 1.2156 1 . 2604 1-2551 1.2499 1.2448 1.2397 1-2344 I 2292 1.2240 1.2188 lO' 1.2024 1-1972 I.I918 1. 1866 1. 1813 I. 1760 I. 1706 I 1653 1-1597 1-1543 1.2040 1.2072 1. 2103 1.2119 1.2067 1. 2013 1. 1961 I. 1908 1.1854 1 . 1 800 1.1746 1. 1690 1. 1636 1.1580 1. 2135 II " 12" 13 14 15' 16° 17° 18'' 19' I 1956 1 . 1 903 1. 1850 i.rygS I. 1744 1.1691 1. 1637 1.1582 1-1527 1. 1988 11934 I.li?82 I. 1829 1-1776 I. 1722 I. 1668 1.1613 1. 1558 1 . 2004 1. 195" 1. 1897 I. 1845 I 1791 1.173S 1.16S4 1.1628 1-1574 1.2020 1.1966 1-1913 1. 1860 I. 1807 1-1753 1 . 1 700 1. 1644 1. 1589 1.2036 1.1982 I. 1929 I. 1876 1.1823 1.1769 1-1715 I. 1659 I. 1605 1.2052 1.1998 1.1945 1. 1892 1.1838 1-1784 I-I731 1-1675 1. 1620 T.2083 1.2029 1.1976 1.1923 1. 1870 1.1816 1. 1 762 1 . 1 706 1.1651 20° 1x472 11487 I-M31 1-1374 I-1317 1.1260 1 . 1 200 1.1142 I. 1082 1.1022 1.0960 1-1503 1.1446 1.1390 I 1332 11275 1.1215 I-I157 1.1097 11037 1.0974 1.1518 1 1534 I 1549 I 1564 I 1595 2t' 22' 23' 24° 26' 27' 2rf" 29' I 1416 I 1359 1. 1302 I. 1244 1. 1 185 I. i 127 I. 1067 1 . 1007 1-0945 1. 1462 1.1405 I 1347 1.1290 1.1230 1.1172 1.1112 I. 1052 1.0989 I 1477 1.142c 1. 1363 1 1305 I. 1246 I.I187 1.1127 1.1067 1.1004 1-0943 1.149-i 1. 1436 1.1378 1.1320 1.1261 1.1202 1.1142 1.1082 1.1019 1.1508 1. 1451 I-I393 I-I336 I. 1276 1. 1217 I-I157 I. 1097 I. 1034 1.1523 I. 1466 1.140S 1-1351 1.1291 1. 1232 1. 11 72 1.1112 1.1049 I-1538 I. 1482 1.1424 I 1366 1 . 1 306 I 1247 1. 1188 I.1127 1. 1064 30° 1.0883 1.0898 I. 0913 1.0928 1.0958 1-0973 1.0988 I. 1002 31' 32° 33' 34' 35° 1. 08 1 9 1-0755 I. 0690 1.0622 1-0555 1.0834 1.0769 1-0705 1.0637 1.0570 1.0849 1.0784 1 0719 1.0652 1.0585 1.0864 I 0799 1-0734 1.0666 1.0599 I 0879 I.0S14 1.0749 1. 0681 1. 0614 1.0893 1.0829 1.0764 I 0696 1.0629 1.0909 1.0843 1.0778 1. 0710 1.0643 1.0923 1.0858 1.0793 1.0725 1.0658 1.0938 1.0873 1.0808 1.0740 1.0673 Atomic Weights. 39 TABLE V. ATOMIC WEIGHTS. According to Clarke, "Constants of Nature, Part V, i^ (Quantivalences after Bloxam.) Aluminum, Al. III. 27 009 Mercury, Hg- 1. 11. 199.712 Aniimony, Sb. III. V. "9 955 Molybdenum, Mo. VI. 95-527 Arsenic, As. III. V. 74918 Nickel, Ni. IL HI. 57928 Barium, Ba. 11. 136.763 Nitrogen, N. HI. V. 14.021 Bismuth, Bi. III. V. 207.523 Osmium, Os. VI. 198.494 Boron, B. III. 10.941 Oxygen, 0. II. 15 9633 Bromine, Br. I. 79.768 Palladium, Pd. 11. V. 105.737 Cadmium, Cd. II. III. 835 Phosphorus, P. HI. V. 30.958 Caesium, Cs. I. 132.583 Platinum, Pt. II. IV. 194.415 Calcium, Ca. II. 39.990 Potassium, K. I. 39.019 Carbon, C. IV. 11.9736 Rhodium, Ro. HI. 104.055 Cerium. Ce. II. 140.424 Rubidium, Rb. I. 85-251 Chlorine, CI. I. 35-370 Ruthenium, Ru. IV. 104.217 Chromium, Cr. III. VI. 52.009 Scandium, Sc. 43.980 Cobalt, Co. II. III. 58.887 Selenium, Se. II. 78.797 Columbium, Cb. 93.812 Silicon, Si. IV. 28.195 Copper, Cu. I. II. 63 173 Silver, Ag I. 107.675 Didymium, D. II. M4-573 Sodium, Na. I. 22.998 Erbium, E. II. 165.891 Strontium, Sr. II. 87-374 h luonne. F. I. 18 984 .Sulpliii r. S. 11. 31-984 Gallium, Ga. HI. 68 854 1 n malum. fa. V. 182.144 GlucinuMi, G]. 11. 9.085 Tellurium, Te. II. 127.960 Gold, Au 111. 196155 rhalluini. Tl. I. 203.715 Hydrot^cn, H. 1. 1. 000 Thorium, Th. 11. 233-414 Indium, In. HI. 113-398 Tin. Sn. 11. IV. 117.698 Iodine, I. 1. 126 557 Titanium. Ti. IV. 49.846 Iridium, Ir. IV. 192.651 Tungsten U'. VI. 183. 61U Iron. Fe. II. 111. 55-913 Uranium. U. 11. 111. 238 482 Lanthanum, La 11. 138.526 Vanadium. V. HI. V. 51.256 Lead, I'b. II. 206.471 Ytterbium, Yb. 172.761 Lithium, Li. 1. 7-0073 Yttrium, Yt. II. 89.816 Magnesium, ^^g II. 23-959 Zinc, Zn. II. 64,9045 Manganese, Mn. II. IV. 53 906 Zirconium, Zr. IV. 89.367 40 Conversion Factors. d w td ^ Q () t-^ lij > W A F- w J > < CQ i!^ W < < o H § U ^^ W o X f-H u 0^ O < S :/) 3^ O H U < li, iz; o f/i c«i w > •^ o u OO M O u-1 t^ -r^ O^oo CO coo u-)u-)M cou-)i-< tncoioO O^ "^vO I^u^cou-^O CO'-' W cooJ O mco -f O t^ — vO l~- CO r^o O " M >-> Mco int^-i-i-ico coOOi-' co Ncn r^ocovo C) -I--1-0 "OO r^inOO w Tf-f-l--tin-1-C>Ono c^c^r^OOrO O M in" COIN -rO r^incico C>co lo O m coc/3 cococoo mr^H- mom O^ O O u^O m o^O CO moo sO CO O CO .«i CIO -i-co mr^oo nooo i~~>n'J- ICO comN ci >-< -+0) Omei m covO r^ r^*— r^iri" >-( in-+o O O^C^COCJ f> I^CJ C) coo Oco C>0 cocor^u-1" r^ciOO CJ CI X) -fO t-»cJO C-O Oco-t-r^M COO ""i-icc"r^r^a^t-tioc)C40 M M in N ii'^NMk-Mi-iCOCOClClcO \ri\0 CO M r~- '^ c) mo c^ o M m imrtcoO rnmo "-0 O^co I >nO O mr^r^mcj »-h O O oii-iOMO"OOr^'-iiN ■mmOco r^-t»nco-l--rtco r-^ _i O " M coco o r^cc o< CT^ CT^ O m TOO"* "no O o^ M coo C3^ CT^co r^ O OP)cOi-ii-iO'*C^'*'-i O^t~»coin •->-(-+ M Ooo TfcOM "^O COO'*" N 1-1 C> t^ " M N -^ in cj CO CO CO CO coo m r^ N in Oco Oco cort'^mt— cy- ^ coo t^ t^O coMO c^mc^0^mr^^^r^M r^O r^co r^r^mo t^^r^pJ c^co"-! O " coo r^ci r^r^— a^mO N i-i O -^co c>co co M ci — o c* r^O cor^O "CO n -tco'^ mr^O r-mO co C>0 -^ ^ P< cooo coo ^ M C4 t^r^o ocOMrri ooo c^jp) mif r^OM OO mooO coOO l-l " CO M CO if" ONOoo coo comr->i^":j-t^O -j-rj-cor^t^-i-'i-oco ci O t^r^N " int^r^mOoo t ^^ ko ^ •^oc'co " "O "+0 r-^r^ -i-O " M CO O N coco c\0 ininrJ-r^O " " O r^co co " " rj- co O ■^■co -+ 'i- " 0^<:) in " O ■+ 'i-co ino inOOinO coO O OO O cor^r^OmOP) OO cooco OO Oco r^O compi PI I^-)--+0 O " "CO OO o " P» O co P) m ■^inmo PI m"00 "CO Tl-'tmco -^O r^ coo " -rco r^O O^O co coo ^ " " CO Tl- CO " CO CO P< CO 00r)-0" 00"in':t inO O "O r-~min" PIOco mmOl^co p» P< r^Tj-mmmincoo" O in PI " or^Or^-l^mTCOP) m-^p) r^-tPi cot^^or^O " inO -+0 OOco coOPi ^O O coo coO •^ in in ^ cooo OPJO"cop.mOOinO -fco OOO coo " P» PI PI t^co" r^O '*mrft^r^p«o r^cocowco mP) ococo "^oo O M c^ PI M N M ddd^¥ddd8^¥8" ^ ogg^dd . ^li^i- Conversion Factors. 41 M CO O aj vo ino \0 w hi o >-i CO O 00 O 100 ^O en M hH cj O tnoo ir> C -i- t^ in r^ C> w CO 00 in O^ N invO Tf- in 01 tJ-o cj m en M M 1-1 M O W 1-1 O^ Ov 1- r--0 o r^O^eninTfenr^O -t-O r^'tino 00 i^tn-i-'i-N r^w M o eninOO r^ enco c]0 Oco o wOcocovO ino O^co enM enC My3 T^en^^co O m N enco en 1 CO 1 M en CT-r^w Mco 00 cno enN OO p) MM"coenc^ooe)in i~^co w- in r^ NCOO enO ino\'+ ^-O O^ m vn w CO 0^00 in M enco co co h- o o r^ N •:)- M OvO 'I- r^O " en en O r^oo O c^ eno M 00 M P) vO en 1-1 OvO O en-l-co OcovO mo f^ CO o CO O en M CO eno enco o^ ^^ en mco CO eno 00 1-1 r^ r^ en mo O r^ CO inco c^ enco in'+O minr^o en C^inini-i meni-i r^enwco mr^r^ M MinNt^inO 1-1 CO r^O r^Oenr^co -fO -TO— O en en a^\0 PJ N i-ico int^Oco r^eno Oco Mt^M — enOOOi-iMinen CO M oOm-+i-i i-< enO-^-cnc) in Tt O i-t ino 00 cnw MvO •+inm M HH '^M inrfl^w en o Nii'l-eninMNOOOenr^O O O en -1- in M 1-1 00 CO vO O'^ -^ ^ kO M 0»+i-ico -l-ineneno r^co Oco Of^OOO or^r^incj cjco m^ O M 1^ O r^O OcowMTTNtnen M M 1-1 en c» in N O inMOcoOO inO inO •* O 'i- ^O P) r^ O O Oco O'' (^ O^ r^ w en kO o r^ O -i- r^ r^o ^ en en "+ m "rt- "o u o -■ O I .0 NCuCJi^ nZZZ c^ mZ n p