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The partial pressure of each gas is to be calculated. Concept introduction: The mole fraction of an individual gas, for a combination of gases, is the ratio of the moles of the individual gas with the total number of moles of the mixture. χ i = n i n total Here, χ i is the mole fraction, n i is the mole fraction of individual gas, and n total is the total number of moles. Also, the mole fraction of an individual gas, for a combination of gases, can be calculated from the ratio of the partial pressure of the individual gas to the total pressure of the combination. χ i = P i P total Here, χ i is the mole fraction, P i is the partial pressure of individual gas, and P total is the total pressure.

The partial pressure of each gas is to be calculated. Concept introduction: The mole fraction of an individual gas, for a combination of gases, is the ratio of the moles of the individual gas with the total number of moles of the mixture. χ i = n i n total Here, χ i is the mole fraction, n i is the mole fraction of individual gas, and n total is the total number of moles. Also, the mole fraction of an individual gas, for a combination of gases, can be calculated from the ratio of the partial pressure of the individual gas to the total pressure of the combination. χ i = P i P total Here, χ i is the mole fraction, P i is the partial pressure of individual gas, and P total is the total pressure.

Solution Summary: The author explains that the mole tion of an individual gas, for a combination of gases, can be calculated from the ratio of partial pressure of the individual to the total pressure.

Chemistry

4th Edition

ISBN: 9780078021527

Author: Julia Burdge

Publisher: McGraw-Hill Education

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Question

Chapter 10.5, Problem 6CP

Interpretation Introduction

Interpretation:

The partial pressure of each gas is to be calculated.

Concept introduction:

The mole fraction of an individual gas, for a combination of gases, is the ratio of the moles of the individual gas with the total number of moles of the mixture.

χi=nintotal

Here, χi is the mole fraction, ni is the mole fraction of individual gas, and ntotal is the total number of moles.

Also, the mole fraction of an individual gas, for a combination of gases, can be calculated from the ratio of the partial pressure of the individual gas to the total pressure of the combination.

χi=PiPtotal

Here, χi is the mole fraction, Pi is the partial pressure of individual gas, and Ptotal is the total pressure.

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Chapter 10.5, Problem 5CP

Chapter 10.6, Problem 1PPA

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Chapter 10 Solutions

Chemistry

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