3) A sample of vapor weighing 0.180 g occupies a volume of 53.1 cubic centimeters at 27°C and 760 mm Hg. The critical pressure of the vapor is 47.7 atm, while the critical temperature is 288.5°C. By the use of Berthelot equation calculate the molecular weight of the vapor, and compare the results with that calculated by the ideal gas law.

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Chapter1: Chemical Foundations
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Show complete solutions and simplify all answers. Round off final answers to 4 decimal places and floating values for intermediate answers. Use 2 decimal places for molecular weights. Enclose all final answers in a box.
3) A sample of vapor weighing 0.180 g occupies a volume of 53.1 cubic centimeters at
27°C and 760 mm Hg. The critical pressure of the vapor is 47.7 atm, while the critical
temperature is 288.5°C. By the use of Berthelot equation calculate the molecular
weight of the vapor, and compare the results with that calculated by the ideal gas
law.
Transcribed Image Text:3) A sample of vapor weighing 0.180 g occupies a volume of 53.1 cubic centimeters at 27°C and 760 mm Hg. The critical pressure of the vapor is 47.7 atm, while the critical temperature is 288.5°C. By the use of Berthelot equation calculate the molecular weight of the vapor, and compare the results with that calculated by the ideal gas law.
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