Introductory Chemistry: A Foundation
Introductory Chemistry: A Foundation
8th Edition
ISBN: 9781285199030
Author: Steven S. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Chapter 15, Problem 30CR
Interpretation Introduction

(a)

Interpretation:

The volume occupied by 1.15g of helium gas at 25°C and 1.01atm is to be calculated.

Concept Introduction:

The ideal gas equation is used to represent the relation between the volume, pressure, temperature and number of moles of an ideal gas. The ideal gas equation is given as,

PV=nRT

Where,

  • V represents the volume occupied by the ideal gas.
  • P represents the pressure of the ideal gas.
  • n represents the number of moles of the ideal gas.
  • T represents the temperature of the ideal gas.
  • R represents the ideal gas constant with value 0.08206LatmK1mol1.

Expert Solution
Check Mark

Answer to Problem 30CR

The volume occupied by 1.15g of helium gas at 25°C and 1.01atm is 6.96L.

Explanation of Solution

The molar mass of He gas is 4.00gmol1.

The mass of He gas is 1.15g.

The temperature of He gas is 25°C.

The temperature of He gas in Kelvin is given as,

T=25°C+273.15K=298.15K

The pressure of He gas is 1.01atm.

The number of moles of substance is given as,

n=mMm

Where,

  • m represents the mass of the substance.
  • Mm represents the molar mass of the substance.

Substitute the value of the mass and molar mass of He gas in the above equation.

n=1.15g4.00gmol1=0.2875mol

The number of moles of He gas is 0.2875mol.

The ideal gas equation is given as,

PV=nRT

Where,

  • V represents the volume occupied by the ideal gas.
  • P represents the pressure of the ideal gas.
  • n represents the number of moles of the ideal gas.
  • T represents the temperature of the ideal gas.
  • R represents the ideal gas constant with value 0.08206LatmK1mol1.

Rearrange the above equation for the value of V.

` V=nRTP

Substitute the value of P, n, T and R in the above equation.

V=0.2875mol0.08206LatmK1mol1298.15K1.01atm=6.96L

Therefore, the volume occupied by 1.15g of helium gas at 25°C and 1.01atm is 6.96L.

Interpretation Introduction

(b)

Interpretation:

The partial pressure of 2.27g of H2 and 1.03g of He at given temperature and volume is to be calculated.

Concept Introduction:

The ideal gas equation is used to represent the relation between the volume, pressure, temperature and number of moles of an ideal gas. The ideal gas equation is given as,

PV=nRT

Where,

  • V represents the volume occupied by the ideal gas.
  • P represents the pressure of the ideal gas.
  • n represents the number of moles of the ideal gas.
  • T represents the temperature of the ideal gas.
  • R represents the ideal gas constant with value 0.08206LatmK1mol1.

Expert Solution
Check Mark

Answer to Problem 30CR

The partial pressure of 2.27g of H2 and 1.03g of He at given temperature and volume is 5.0881atm and 1.1544atm respectively.

Explanation of Solution

The molar mass of H2 gas is 2.00gmol1.

The mass of H2 gas is 2.27g.

The molar mass of He gas is 4.00gmol1.

The mass of He gas is 1.03g.

The temperature of container is 0°C.

The temperature of container in Kelvin is given as,

T=0°C+273.15K=273.15K

The volume of the container is 5.00L.

The number of moles of substance is given as:

n=mMm    (1)

Where,

  • m represents the mass of the substance.
  • Mm represents the molar mass of the substance.

Substitute the value of the mass and molar mass of H2 gas in the equation (1).

n=2.27g2.00gmol1=1.135mol

The number of moles of H2 gas is 1.135mol.

Substitute the value of the mass and molar mass of He gas in the equation (1).

n=1.03g4.00gmol1=0.2575mol

The number of moles of He gas is 0.2575mol.

The ideal gas equation is given as,

PV=nRT

Where,

  • V represents the volume occupied by the ideal gas.
  • P represents the pressure of the ideal gas.
  • n represents the number of moles of the ideal gas.
  • T represents the temperature of the ideal gas.
  • R represents the ideal gas constant with value 0.08206LatmK1mol1.

Rearrange the above equation for the value of P.

` P=nRTV    (2)

Substitute the value of V, n, T and R in the equation (2).

P=1.135mol0.08206LatmK1mol1273.15K5L=5.0881atm

Therefore, the partial pressure of 2.27g of H2 at given temperature and volume is 5.0881atm.

Substitute the value of V, n, T and R in the equation (2).

P=0.2575mol0.08206LatmK1mol1273.15K5L=1.1544atm

Therefore, the partial pressure of 1.03g of He at given temperature and volume is 1.1544atm.

Interpretation Introduction

(c)

Interpretation:

The pressure existing in a 9.97L tank containing 42.5g of argon gas at 27°C is to be calculated.

Concept Introduction:

The ideal gas equation is used to represent the relation between the volume, pressure, temperature and number of moles of an ideal gas. The ideal gas equation is given as,

PV=nRT

Where,

  • V represents the volume occupied by the ideal gas.
  • P represents the pressure of the ideal gas.
  • n represents the number of moles of the ideal gas.
  • T represents the temperature of the ideal gas.
  • R represents the ideal gas constant with value 0.08206LatmK1mol1.

Expert Solution
Check Mark

Answer to Problem 30CR

The pressure existing in a 9.97L tank containing 42.5g of argon gas at 27°C is 2.6281atm.

Explanation of Solution

The molar mass of argon gas is 39.95gmol1.

The mass of argon gas is 42.5g.

The temperature of tank is 27°C.

The temperature of tank in Kelvin is given as,

T=27°C+273.15K=300.15K

The volume of the tank is 9.97L.

The number of moles of substance is given as,

n=mMm

Where,

  • m represents the mass of the substance.
  • Mm represents the molar mass of the substance.

Substitute the value of the mass and molar mass of argon gas in the above equation.

n=42.5g39.95gmol1=1.0638mol

The number of moles of argon gas is 1.0638mol.

The ideal gas equation is given as,

PV=nRT

Where,

  • V represents the volume occupied by the ideal gas.
  • P represents the pressure of the ideal gas.
  • n represents the number of moles of the ideal gas.
  • T represents the temperature of the ideal gas.
  • R represents the ideal gas constant with value 0.08206LatmK1mol1.

Rearrange the above equation for the value of P.

` P=nRTV

Substitute the value of V, n, T and R in the above equation.

P=1.0638mol0.08206LatmK1mol1300.15K9.97L=2.6281atm

Therefore, the pressure existing in a 9.97L tank containing 42.5g of argon gas at 27°C is 2.6281atm.

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Chapter 15 Solutions

Introductory Chemistry: A Foundation

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