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Metals Vapor pressure. This table gives coefficients in an equation for the vapor pressure of metallic elements in both the solid and liquid state. Vapor pressure in the range of 10-15 to 10-3-atmare covered. The equation is: log(p/atm) = A + B T + C *log(T) + D T3.
This table gives coefficients in an equation for the vapor pressure of 65 metallic elements in both the solid and liquid state. Vapor pressures in the range 10 -10 to 10 2 Pa (10 -15 to 10 -3 atm) are covered.
APPROXIMATE VAPORIZATION TEMPERATURES OF METALS AT VARYING PRESSURES Element Melting Point °C 10-5-0.01 °C 10 4 0.1 °C 10-3 1 °C 10 2 10 °C 10-1 100 °C 760 Torr 760,000µ °C Ag 965 768 849 921 1046 1160 2213 Al 660 724 807 888 996 1124 2057 Au 1063 1082 1191 1316 1466 1646 2996 B 2300 - 1141 1238 1354 1488 2549 ...
This table gives vapor pressure data for about 1800 inorganic and organic substances. In order to accommodate elements and comp ounds ranging from refractory to highly volatile in a single table, the temperature at which the vapor pressure reaches specified pressure va lues is listed.
Formula Name Formula Name Reference Tables for Physical Setting/Chemistry – 2011 Edition 2 Table F Solubility Guidelines for Aqueous Solutions Table E Selected Polyatomic Ions H 3 O+ hydronium Hg 2 2+ mercury(I) NH 4 + ammonium C 2 H 3 O 2 – acetate CH 3 COO–} CN– cyanide CO 3 2– carbonate HCO 3 – hydrogen carbonate C 2 O 4 2 ...
Calculate the vapor pressure of acetone (C3H6O) at 47.35°C. Substitution of the Antoine coefficients from the table and tem-perature into the equation for vapor pressure yields: log
Much more accurate ways of estimating fluid densities are available in our computers. But the classic compressibility factor chart (used with the values in Table A.1) allows us to make a very quick estimate of the departure from ideal gas behavior, and it gives some insight into the form of that departure. Here.
