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Science Chemistry EBK CHEMISTRY

The mole fraction of the given gases 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 to the total number of moles of the gaseous mixture. χ i = n i n total Here, χ i is the mole fraction, n i is the number of moles of the individual gas, and n total is the total number of moles of the gaseous mixture. Also, the mole fraction of an individual gas, for a combination of gases, is 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 the individual gas, and P total is the total pressure of the combination.

The mole fraction of the given gases 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 to the total number of moles of the gaseous mixture. χ i = n i n total Here, χ i is the mole fraction, n i is the number of moles of the individual gas, and n total is the total number of moles of the gaseous mixture. Also, the mole fraction of an individual gas, for a combination of gases, is 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 the individual gas, and P total is the total pressure of the combination.

Solution Summary: The author explains how the mole tion of an individual gas, for a combination of gases, is calculated from the ratio of the partial pressure

EBK CHEMISTRY

4th Edition

ISBN: 8220102797864

Author: Burdge

Publisher: YUZU

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Mole concept is a method to determine the amount of any substance that consists of some elemental particles using a grouping unit called ‘mole’. The mole concept enables one to handle the large amount of small elementary particles. The mole concept can b…

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Chapter 10, Problem 138AP

Interpretation Introduction

Interpretation:

The mole fraction of the given gases 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 to the total number of moles of the gaseous mixture.

$χ_{i} = \frac{n_{i}}{n_{total}}$ $χi=nintotal$

Here, $χ_{i}$ $χi$ is the mole fraction, $n_{i}$ $ni$ is the number of moles of the individual gas, and $n_{total}$ $ntotal$ is the total number of moles of the gaseous mixture.

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

$χ_{i} = \frac{P_{i}}{P_{total}}$ $χi=PiPtotal$

Here, $χ_{i}$ $χi$ is the mole fraction, $P_{i}$ $Pi$ is the partial pressure of the individual gas, and $P_{total}$ $Ptotal$ is the total pressure of the combination.

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Chapter 10, Problem 137AP

Chapter 10, Problem 139AP

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