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Science Chemistry EBK CHEMISTRY

The change in the representation of the gas after lowering the temperature from 350 K to 150 K needs to be identified if the boiling point of the gas is 90 K. When the temperature of a gas is decreased, the speed of the gaseous molecules decreases. Due to a decrease in the speed of the molecules, the space between them decreases, hence, the volume of gas decreases. The ideal gas equation is represented as follows: P V = n R T Here, P is pressure, V is volume, n is the number of moles, R is Universal gas constant and T is temperature.

The change in the representation of the gas after lowering the temperature from 350 K to 150 K needs to be identified if the boiling point of the gas is 90 K. When the temperature of a gas is decreased, the speed of the gaseous molecules decreases. Due to a decrease in the speed of the molecules, the space between them decreases, hence, the volume of gas decreases. The ideal gas equation is represented as follows: P V = n R T Here, P is pressure, V is volume, n is the number of moles, R is Universal gas constant and T is temperature.

Solution Summary: The author explains that the change in the representation of the gas after lowering the temperature from 350 K to 150 K needs to be identified if the boiling point is 90 K.

EBK CHEMISTRY

8th Edition

ISBN: 9780135216972

Author: Robinson

Publisher: PEARSON CO

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Question

Chapter 10, Problem 10.27CP

Interpretation Introduction

Interpretation:

The change in the representation of the gas after lowering the temperature from 350 K to 150 K needs to be identified if the boiling point of the gas is 90 K.

When the temperature of a gas is decreased, the speed of the gaseous molecules decreases. Due to a decrease in the speed of the molecules, the space between them decreases, hence, the volume of gas decreases.

The ideal gas equation is represented as follows:

PV=nRT

Here, P is pressure, V is volume, n is the number of moles, R is Universal gas constant and T is temperature.

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Chapter 10, Problem 10.26CP

Chapter 10, Problem 10.28CP

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