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If the density of your unknown liquid is 0.65 g/ml, calculate the volume in liters that 3 ml of your unknown liquid would occupy when vaporized at the barometric pressure and temperature of your boiling water bath in run 1. use the accepted molar mass of your suspected unknown.c

User Duarte Nunes
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1. If the density of your unknown liquid is 0.65 g/mL, calculate the volume in liters that 3 mL of your unknown liquid would occupy when vaporized at the barometric pressure and temperature of your boiling water bath in Run 1. Use the accepted molar mass of your suspected unknown: (0/1pts) Volume occupied when vaporized (L_ 3x0.65 (-1.0 pts) Incorrect. Convert from volume of liquid to moles of unknown using the density; 0.65 g.mL, and accepted molar mass for the suspected unknown: Do not use your experimentally determined molar mass. Once you have determined the moles of unknown; use the ideal gas law to determine the volume in liters that the gas will occupy once vaporized. Make sure to use the temperature of the water bath from Run 1 in Kelvin and the barometric pressure you recorded, in atm: (1/1pts) Based on the volume of the flask (L) from run 1, was 3 mL sufficient liquid to use in your experiment? yes

User Jdobry
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