Densities of Aromatic Hydrocarbons by K.R. Hall, K.R. Hall, K.N. Marsh, R.C. Wilhoit, X. Hong, M.

By K.R. Hall, K.R. Hall, K.N. Marsh, R.C. Wilhoit, X. Hong, M. Frenkel

Information at the densities of natural compounds are crucial for either clinical and commercial purposes. wisdom of densities is necessary in lots of parts, together with custody move of fabrics, product specification, improvement of varied predictive tools, and for characterizing compounds and estimating their purity. The densities of fragrant hydrocarbons have been accrued from the unique literature released from 1870 to early 1997 and severely evaluated. The tables comprise the unique literature facts in addition to their anticipated uncertainties, and the evaluated facts, in either numerical shape and as coefficients to equations with chosen statistical details. the quantity additionally comprises the CASR quantity Index, a Chemical identify Index and a CD-ROM which permits speedy complete textual content index seek.

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30 ρexp − ρcalc Ref. (Symbol in Fig. 61 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-31) 92-ano-3(✕ ) 92-ano-3(✕ ) 92-ano-3(✕ ) 92-ano-3(✕ ) 92-ano-3(✕ ) 93-gar/ban1) 93-gar/ban1) 93-gar/ban1) 93-gar/ban(✕ ) 93-gar/ban(✕ ) 93-gar/ban(✕ ) 93-gar/ban(✕ ) Not included in Fig. 1. Further references: [1883-sch-3, 1884-sch-6, 1887-neu, 1891-gla, 1892-lan/jah, 1893-sch, 1894-bru-1, 1894-tho/rod-1, 1896-per, 02-pat, 12-mor/dag, 12-ric/stu, 13-haw, 14-kre/gug, 14-kre/mei, 14-kre/mei-2, 19-von, 20-har/cla, 24-ric/spe, 26-mat, 32-hof/lan, 32-mil, 32-whi/ros, 32-zel/mar, 36-mar-1, 37-loz/dya, 37-mul, 39-gro/wac, 40-ano, 42-gei, 43-ano, 43-ano-2, 43-ham/mca, 44-ano, 44-can, 44-sch, 46-boo/gre, 46-gei/can, 46-gib/tho, 49-boo/hen, 49-foe/fen, 53-kol/gri, 54-smi/otv, 57-pet/smy, 58-pan/mak-1, 60fro/shr, 61-sch/sau, 63-plu/dow, 69-rod/hsu, 70-gal, 75-mil/wac, 76-hus/sch, 77-jai/bag, 79-kri/sre, 80pit/sur, 80-pro/ram, 83-gop/rao, 84-sin/nig, 85-tak/ter-1, 86-tar/dia-1, 87-dah/dag, 88-jas/nag, 88-rat, 90che/pet, 90-mal/rao, 90-ser/sil, 92-qin/hof, 93-hai/guo, 94-sha/sin, 94-sin/kal, 95-aic/jun, 95-hai/cha, 95hai/min-1, 95-pet/gas, 95-toj/dia].

1. The symbols show the deviation of the calculated from the experimental values from Table 2. The curves above and below the zero line indicate the calculated error region of the recommended values given in Table 3. The error bars represent the experimental errors. ) Table 3. 75(1 - T/Tc)][ρc + A(Tc -T ) + B(Tc - T )2 + C(Tc - T )3 + D(Tc - T )4] ). 21 cont. ) Table 3. 19 11 Table 1. Coefficients of the polynomial expansion equation. 7271 · 10-2 (combined temperature ranges, unweighted). 68910 · 10-6 Coefficient A B C D Table 2.

4472 · 10-1 (combined temperature ranges, unweighted). 59482 · 10-1 ρ ρ Coefficient A B Fig. 1. The symbols show the deviation of the calculated from the experimental values from Table 2. The curves above and below the zero line indicate the calculated error region of the recommended values given in Table 3. The error bars represent the experimental errors. ) cont. 1 Alkylbenzenes (CnH2n-6), C6 - C10 43 Table 2. Experimental values with uncertainties and deviation from calculated values. 15 1) ρexp ± 2σ est ρexp − ρcalc Ref.

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