Introduction To General, Organic, And Biochemistry
Introduction To General, Organic, And Biochemistry
12th Edition
ISBN: 9781337571357
Author: Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar Torres
Publisher: Cengage Learning
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Chapter 5, Problem 39P

(a)

Interpretation Introduction

Interpretation: The density of gas at STP should be calculated. If it is greater than the density of air or not should be determined.

Concept Introduction: The density of a substance is its mass per unit volume. It is mathematically represented as follows:

  d=mV …… (1)

Here, m is mass and V is volume.

At STP, the value of temperature is 0 oC or 273.15 K and that of pressure is 1 atm. From ideal gas law, pressure, volume, number of moles and temperature are related to each other as follows:

  PV=nRT …… (2)

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

Also, the number of moles is related to mass and molar mass as follows:

  n=mM

Here, m is mass and M is molar mass.

Putting the value of the number of moles from equation (3) to (2) thus,

  PV=(mM)RT

Or,

  V=mRTPM

Putting the value of volume in equation (1) thus,

  d=mmRTPM

Or,

  d=PMRT

(a)

Expert Solution
Check Mark

Answer to Problem 39P

The density of SO2 is 2.86 g/L which is denser than air.

Explanation of Solution

The given gas is SO2 .

The molar mass of the gas is 64.066 g/mol. The pressure and temperature at STP will be 1 atm and 298.15 K thus, density can be calculated using the following relation:

  d=PMRT

Putting the values,

  d=( 1 atm)( 64.066 g/mol)( 0.082  L atm K 1  mol 1 )( 273.15 K)=2.86 g/L

The density of air at STP is 1.29 g/L. The value of density of SO2 is more than air thus, it is denser than air.

(b)

Interpretation Introduction

Interpretation: The density of gas at STP should be calculated. If it is greater than the density of air or not should be determined.

Concept Introduction: The density of a substance is its mass per unit volume. It is mathematically represented as follows:

  d=mV …… (1)

Here, m is mass and V is volume.

At STP, the value of temperature is 0 oC or 273.15 K and that of pressure is 1 atm. From ideal gas law, pressure, volume, number of moles and temperature are related to each other as follows:

  PV=nRT …… (2)

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

Also, the number of moles is related to mass and molar mass as follows:

  n=mM

Here, m is mass and M is molar mass.

Putting the value of number of moles from equation (3) to (2) thus,

  PV=(mM)RT

Or,

  V=mRTPM

Putting the value of volume in equation (1) thus,

  d=mmRTPM

Or,

  d=PMRT

(b)

Expert Solution
Check Mark

Answer to Problem 39P

The density of CH4 is 0.716 g/L which is not denser than air.

Explanation of Solution

The given gas is CH4 .

The molar mass of the gas is 16.04 g/mol. The pressure and temperature at STP will be 1 atm and 273.15 K thus, density can be calculated using the following relation:

  d=PMRT

Putting the values,

  d=( 1 atm)( 16.04 g/mol)( 0.082  L atm K 1  mol 1 )( 273.15 K)=0.716 g/L

The density of air at STP is 1.29 g/L. The value of density of CH4 is less than air thus, the air is denser than CH4 .

(c)

Interpretation Introduction

Interpretation: The density of gas at STP should be calculated. If it is greater than the density of air or not should be determined.

Concept Introduction: The density of a substance is its mass per unit volume. It is mathematically represented as follows:

  d=mV …… (1)

Here, m is mass and V is volume.

At STP, the value of temperature is 0 oC or 273.15 K and that of pressure is 1 atm. From ideal gas law, pressure, volume, number of moles and temperature are related to each other as follows:

  PV=nRT …… (2)

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

Also, the number of moles is related to mass and molar mass as follows:

  n=mM

Here, m is mass and M is molar mass.

Putting the value of the number of moles from equation (3) to (2) thus,

  PV=(mM)RT

Or,

  V=mRTPM

Putting the value of volume in equation (1) thus,

  d=mmRTPM

Or,

  d=PMRT

(c)

Expert Solution
Check Mark

Answer to Problem 39P

The density of H2 is 0.09 g/L which is not denser than air.

Explanation of Solution

The given gas is H2 .

The molar mass of the gas is 1.008 g/mol. The pressure and temperature at STP will be 1 atm and 273.15 K thus, density can be calculated using the following relation:

  d=PMRT

Putting the values,

  d=( 1 atm)( 2.016 g/mol)( 0.082  L atm K 1  mol 1 )( 273.15 K)=0.09 g/L

The density of air at STP is 1.29 g/L. The value of density of H2 is less than air thus, the air is denser than H2 .

(d)

Interpretation Introduction

Interpretation: The density of gas at STP should be calculated. If it is greater than the density of air or not should be determined.

Concept Introduction: The density of a substance is its mass per unit volume. It is mathematically represented as follows:

  d=mV …… (1)

Here, m is mass and V is volume.

At STP, the value of temperature is 0 oC or 273.15 K and that of pressure is 1 atm. From ideal gas law, pressure, volume, number of moles and temperature are related to each other as follows:

  PV=nRT …… (2)

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

Also, the number of moles is related to mass and molar mass as follows:

  n=mM

Here, m is mass and M is molar mass.

Putting the value of the number of moles from equation (3) to (2) thus,

  PV=(mM)RT

Or,

  V=mRTPM

Putting the value of volume in equation (1) thus,

  d=mmRTPM

Or,

  d=PMRT

(d)

Expert Solution
Check Mark

Answer to Problem 39P

The density of He is 0.1787 g/L which is not denser than air.

Explanation of Solution

The given gas is He .

The molar mass of the gas is 4.002 g/mol. The pressure and temperature at STP will be 1 atm and 273.15 K thus, density can be calculated using the following relation:

  d=PMRT

Putting the values,

  d=( 1 atm)( 4.002 g/mol)( 0.082  L atm K 1  mol 1 )( 273.15 K)=0.1787 g/L

The density of air at STP is 1.29 g/L. The value of density of He is less than air thus, the air is denser than He .

(e)

Interpretation Introduction

Interpretation: The density of gas at STP should be calculated. If it is greater than the density of air or not should be determined.

Concept Introduction: The density of a substance is its mass per unit volume. It is mathematically represented as follows:

  d=mV …… (1)

Here, m is mass and V is volume.

At STP, the value of temperature is 0 oC or 273.15 K and that of pressure is 1 atm. From ideal gas law, pressure, volume, number of moles and temperature are related to each other as follows:

  PV=nRT …… (2)

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

Also, the number of moles is related to mass and molar mass as follows:

  n=mM

Here, m is mass and M is molar mass.

Putting the value of the number of moles from equation (3) to (2) thus,

  PV=(mM)RT

Or,

  V=mRTPM

Putting the value of volume in equation (1) thus,

  d=mmRTPM

Or,

  d=PMRT

(e)

Expert Solution
Check Mark

Answer to Problem 39P

The density of CO2 is 1.96 g/L which is denser than air.

Explanation of Solution

The given gas is CO2 .

The molar mass of the gas is 44.01 g/mol. The pressure and temperature at STP will be 1 atm and 273.15 K thus, density can be calculated using the following relation:

  d=PMRT

Putting the values,

  d=( 1 atm)( 44.01 g/mol)( 0.082  L atm K 1  mol 1 )( 273.15 K)=1.96 g/L

The density of air at STP is 1.29 g/L. The value of density of CO2 is more than air thus, it is denser than air.

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Chapter 5 Solutions

Introduction To General, Organic, And Biochemistry

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