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Farber

Ref. 5, Chap. 29, pp. 803-43. See also E. Farber, Nobel Prize Winners in Chemistry 1901 1961, Abelard-Schuman, London, Marie Sklodowska Curie, pp. 45-8. F. C. Wood, Marie Curie, in E. Farber (ed.). Great Chemists, pp. 1263-75. Interscience, New York, 1961. [Pg.748]

Farber, m. dyer, -baum, m. Venetian sumac Cotinua coggygria). -blume, /. woodwaxen. [Pg.146]

Farber-erde, /. Armenian bole, -flechte, /. archil, dyer s moss, -flotte, /. dye liquor, dye bath, -ginster, m. dyer s broom (Ge-niata tinctoria). -holz, n. dyer s wood, dye-wood. [Pg.146]

Waid, m. woad. -blau, n. woad blue, woad. -farber, m. woad dyer, -kupe, /. woad vat. -kupenschwarz, n. woaded logwood black. Wal, m. whale. [Pg.500]

Weiss-farber, m. bleacher, -faule, /. Bot.) white rot. -feuer, n. white fire, -fohre, /. Scotch pine Pinus sylvestris). [Pg.509]

WoUen-, wool, woolen, worsted. WoU-entfettung, -entschweissung, /. degreasing of wool, -farber, m. wool dyer, woUfarbig, a. dyed in the wool. [Pg.518]

Nukiyama was unable to establish a condition on the line CD, and in his original experimental curves he shows this line dotted. However, Farber and Scorah (F2) have reported that with special surface treatment and very careful experimentation, quasistable conditions can be set up on a curve such as CD in pool boiling. Their procedure was to first reach point D by way of ACFD and then to very carefully increase the heat flux. However, any disturbance or sudden change of heat flux when in the region CD caused the system to revert to the stable regions GC or DF. [Pg.213]

Fig. 18. Example of the linear effect of bulk fluid subcooling on burn-out for copper and iron wires with pool boiling of water at atmospheric pressure [from Farber (FI)]. Fig. 18. Example of the linear effect of bulk fluid subcooling on burn-out for copper and iron wires with pool boiling of water at atmospheric pressure [from Farber (FI)].
FI. Farber, E. A., Free convection heat transfer from electrically heated wires, J. Appl. Phys. 22, 1437 (1951). [Pg.289]

In boiling liquids on a submerged surface it is found that the heat transfer coefficient depends very much on the temperature difference between the hot surface and the boiling liquid. The general relation between the temperature difference and heat transfer coefficient was first presented by Nukiyama(77) who boiled water on an electrically heated wire. The results obtained have been confirmed and extended by others, and Figure 9.52 shows the data of Farber and Scorah<78). The relationship here is complex and is best considered in stages. [Pg.484]

Oxal (Saita) wfm Reugaril (Farber-Ref) wfm Reulin (Isola-Ibi) wfm Reumital (Farge) wfm... [Pg.452]

Fidocin (Farmaroma) wfm Isodemetil (Isola-Ibi) wfm Latomicina (Farber-ReO wfm... [Pg.586]

See other pages where Farber is mentioned: [Pg.322]    [Pg.132]    [Pg.203]    [Pg.1059]    [Pg.357]    [Pg.64]    [Pg.677]    [Pg.143]    [Pg.159]    [Pg.563]    [Pg.332]    [Pg.74]    [Pg.145]    [Pg.146]    [Pg.246]    [Pg.400]    [Pg.434]    [Pg.331]    [Pg.436]    [Pg.783]    [Pg.967]    [Pg.1419]    [Pg.955]    [Pg.962]    [Pg.197]    [Pg.504]    [Pg.494]    [Pg.494]    [Pg.236]    [Pg.289]    [Pg.399]    [Pg.876]    [Pg.303]    [Pg.812]    [Pg.827]    [Pg.1272]    [Pg.1936]    [Pg.2012]    [Pg.200]   
See also in sourсe #XX -- [ Pg.484 , Pg.485 , Pg.564 ]

See also in sourсe #XX -- [ Pg.83 ]



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