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A mixture of CH 4 (g) and C 3 H 8 (g) with a total pressure of 425 torr is prepared in a reaction vessel. Just enough O 2 (g) is added to allow complete combustion of the two hydrocarbons. The gas mixture is ignited, and the resulting mixture of CO 2 (g) and H 2 O(g) is cooled back to the original temperature. If the total pressure of the products is 2.38 atm, the mole fraction of the C 3 H 8 in the original mixture should be calculated. Concept introduction: For a mixture of two gases, the sum of mole fraction is 1. Thus, if the value of mole fraction of 1st gas is x then, mole fraction of 2 n d gas will be 1-x. Also, mole fraction is related to partial pressure and total pressure as follows: P A = X A P T Here, P A is partial pressure of gas A, X A is mole fraction of gas A and P T is total pressure of the mixture of gas.

A mixture of CH 4 (g) and C 3 H 8 (g) with a total pressure of 425 torr is prepared in a reaction vessel. Just enough O 2 (g) is added to allow complete combustion of the two hydrocarbons. The gas mixture is ignited, and the resulting mixture of CO 2 (g) and H 2 O(g) is cooled back to the original temperature. If the total pressure of the products is 2.38 atm, the mole fraction of the C 3 H 8 in the original mixture should be calculated. Concept introduction: For a mixture of two gases, the sum of mole fraction is 1. Thus, if the value of mole fraction of 1st gas is x then, mole fraction of 2 n d gas will be 1-x. Also, mole fraction is related to partial pressure and total pressure as follows: P A = X A P T Here, P A is partial pressure of gas A, X A is mole fraction of gas A and P T is total pressure of the mixture of gas.

Solution Summary: The author explains that the mole tion of C 3 H 8 in the original mixture should be calculated.

Chemistry for Engineering Students

Chemistry for Engineering Students

4th Edition

ISBN: 9780357026991

Author: Brown

Publisher: CENGAGE Learning Custom Publishing

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Question

Chapter 5, Problem 5.101PAE

Interpretation Introduction

Interpretation:

A mixture of CH₄(g) and C₃H₈(g) with a total pressure of 425 torr is prepared in a reaction vessel. Just enough O₂ (g) is added to allow complete combustion of the two hydrocarbons. The gas mixture is ignited, and the resulting mixture of CO₂(g) and H₂O(g) is cooled back to the original temperature. If the total pressure of the products is 2.38 atm, the mole fraction of the C₃H₈ in the original mixture should be calculated.

Concept introduction:

For a mixture of two gases, the sum of mole fraction is 1. Thus, if the value of mole fraction of 1st gas is x then, mole fraction of 2ⁿ^d gas will be 1-x.

Also, mole fraction is related to partial pressure and total pressure as follows:

PA=XAPT

Here, PA is partial pressure of gas A, XA is mole fraction of gas A and PT is total pressure of the mixture of gas.

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Chapter 5, Problem 5.100PAE

Chapter 5, Problem 5.102PAE

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Chapter 5 Solutions

Chemistry for Engineering Students

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