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The vapor pressure of pure CH_(2)Cl_(2) (molar mass =84.93(g)/(m)ol ) is 133 torr at 0deg C , and the vapor pressure of pure CH_(2)Br_(2) (molar
The vapor pressure of pure
CH_(2)Cl_(2) (molar mass
=84.93(g)/(m)ol ) is 133 torr at
0\\\\deg C, and the vapor pressure of pure
CH_(2)Br_(2) (molar mass
=173.83(g)/(m)ol ) is 11 torr at the same temperature.\ Determine the total vapor pressure of a solution prepared by mixing
40.00g of
CH_(2)Cl_(2) and
80.00g of
CH_(2)Br_(2) at
0\\\\deg C ? Assume that both substances obey the Raoult's law. Answer in three significant figures.
The vapor pressure of pure CH2Cl2 (molar mass =84.93g/mol ) is 133 torr at 0C, and the vapor pressure of pure CH2Br2 (molar mass =173.83g/mol ) is 11 torr at the same temperature. Determine the total vapor pressure of a solution prepared by mixing 40.00g of CH2Cl2 and 80.00g of CH2Br2 at 0C ? Assume that both substances obey the Raoult's law. Answer in three significant figures
The vapor pressure of pure
CH_(2)Cl_(2)(molar mass
=84.93(g)/(m)ol) is 133 torr at
0\\\\deg C, and the vapor pressure of pure
CH_(2)Br_(2)(molar mass
=173.83(g)/(m)ol) is 11 torr at the same temperature.\ Determine the total vapor pressure of a solution prepared by mixing
40.00gof
CH_(2)Cl_(2)and
80.00gof
CH_(2)Br_(2)at
0\\\\deg C? Assume that both substances obey the Raoult's law. Answer in three significant figures.
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