The effective molar mass of air-the mass per mole of mixed molecules which is found to have a mass of 0 .59 g in a 0 .50- liter container at the temperature of 22 ° C and the pressure of 0 .988 atm is to be determined. Concept Introduction: The ideal gas law is the compilation of Charles’s Law ( V ∝ T ) , Boyle’s Law ( V ∝ 1 P ) and Avogadro’s Law ( V ∝ n ) . The ideal gas equation resultant of all the ideal gas law’s is shown below. PV = nRT Effective molar mass is the average of molar mass of mixture of gases.

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5. A solution of sucrose is fermented in a vessel until the evolution of CO2 ceases. Then, the product solution is analyzed and found to contain, 45% ethanol; 5% acetic acid; and 15% glycerin by weight. If the original charge is 500 kg, evaluate; e. The ratio of sucrose to water in the original charge (wt/wt). f. Moles of CO2 evolved. g. Maximum possible amount of ethanol that could be formed. h. Conversion efficiency. i. Per cent excess of excess reactant. Reactions: Inversion reaction: C12H22O11 + H2O →2C6H12O6 Fermentation reaction: C6H12O6 →→2C2H5OH + 2CO2 Formation of acetic acid and glycerin: C6H12O6 + C2H5OH + H₂O→ CH3COOH + 2C3H8O3

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Chapter 14, Problem 4PE

Interpretation Introduction

Interpretation:

The effective molar mass of air-the mass per mole of mixed molecules which is found to have a mass of 0.59 g in a 0.50- liter container at the temperature of 22°C and the pressure of 0.988 atm is to be determined.

Concept Introduction:

The ideal gas law is the compilation of Charles’s Law (V∝T), Boyle’s Law (V∝1P) and Avogadro’s Law (V∝n).

The ideal gas equation resultant of all the ideal gas law’s is shown below.

PV=nRT

Effective molar mass is the average of molar mass of mixture of gases.

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5. A solution of sucrose is fermented in a vessel until the evolution of CO2 ceases. Then, the product solution is analyzed and found to contain, 45% ethanol; 5% acetic acid; and 15% glycerin by weight. If the original charge is 500 kg, evaluate; e. The ratio of sucrose to water in the original charge (wt/wt). f. Moles of CO2 evolved. g. Maximum possible amount of ethanol that could be formed. h. Conversion efficiency. i. Per cent excess of excess reactant. Reactions: Inversion reaction: C12H22O11 + H2O →2C6H12O6 Fermentation reaction: C6H12O6 →→2C2H5OH + 2CO2 Formation of acetic acid and glycerin: C6H12O6 + C2H5OH + H₂O→ CH3COOH + 2C3H8O3

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