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Science Chemistry PRINCIPLES+REACTIONS

The mass of KO 2 that is left after the water in exhaled air reacts with it should be calculated. Concept introduction: The moles of any compound or element can be calculated by given formula: n = m M Where n is number of moles, m is the given mass and M is molar mass. To obtain the volume of gases, the ideal gas equation is used as: P V = n R T Where P is pressure, T is temperature, n is number of moles, R is gas constant, and V is volume of gas. Actually, in breathing apparatus the exhaled air contains carbon dioxide and water. The KO 2 first reacts with water to form potassium hydroxide which later removes carbon dioxide by forming KHCO 3 . The reactions are as follows: (1) 4KO 2 +2H 2 O → 4KOH+3O 2 (2) KOH+CO 2 → KHCO 3

The mass of KO 2 that is left after the water in exhaled air reacts with it should be calculated. Concept introduction: The moles of any compound or element can be calculated by given formula: n = m M Where n is number of moles, m is the given mass and M is molar mass. To obtain the volume of gases, the ideal gas equation is used as: P V = n R T Where P is pressure, T is temperature, n is number of moles, R is gas constant, and V is volume of gas. Actually, in breathing apparatus the exhaled air contains carbon dioxide and water. The KO 2 first reacts with water to form potassium hydroxide which later removes carbon dioxide by forming KHCO 3 . The reactions are as follows: (1) 4KO 2 +2H 2 O → 4KOH+3O 2 (2) KOH+CO 2 → KHCO 3

Solution Summary: The author explains that the mass of KO 2 left after the water in exhaled air reacts with it should be calculated.

PRINCIPLES+REACTIONS

PRINCIPLES+REACTIONS

8th Edition

ISBN: 9781337759632

Author: Masterton

Publisher: CENGAGE L

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Question

Chapter 20, Problem 32QAP

Interpretation Introduction

Interpretation:

The mass of KO₂ that is left after the water in exhaled air reacts with it should be calculated.

Concept introduction:

The moles of any compound or element can be calculated by given formula:

n=mM

Where n is number of moles, m is the given mass and M is molar mass.

To obtain the volume of gases, the ideal gas equation is used as:

PV=nRT

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

Actually, in breathing apparatus the exhaled air contains carbon dioxide and water.

The KO₂ first reacts with water to form potassium hydroxide which later removes carbon dioxide by forming KHCO₃.

The reactions are as follows:

(1) 4KO2+2H2O→4KOH+3O2(2) KOH+CO2→KHCO3

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Chapter 20, Problem 31QAP

Chapter 20, Problem 33QAP

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Chapter 20 Solutions

PRINCIPLES+REACTIONS

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