INTRODUCTORY CHEMISTRY
INTRODUCTORY CHEMISTRY
9th Edition
ISBN: 9780357858998
Author: ZUMDAHL
Publisher: CENGAGE C
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Mole Concept
Mole concept is a method to determine the amount of any substance that consists of some elemental particles using a grouping unit called ‘mole’. The mole concept enables one to handle the large amount of small elementary particles. The mole concept can b…
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Chapter 8, Problem 23QAP

Using the average atomic masses given inside the front cover of this book, calculate the number of atoms present in each of the following samples.

l type='a'>

  • 1.50 g of silver, Ag
  • 0.0015 moIe of copper, Cu
  • 0.0015 g of copper, Cu
  • 2.00 kg of magnesium, Mg
  • 2.34 oz of calcium, Ca
  • 2.34 g of calcium, Ca
  • 2.34 moles of calcium, Ca

    • Expert Solution
    Check Mark
    Interpretation Introduction

    (a)

    Interpretation:

    The number of atoms present in the given sample should be calculated.

    Concept Introduction:

    Number of moles is related to mass and molar mass as follows:

    n=mM

    Here, m is mass and M is molar mass.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. This is known as Avogadro’s number and denoted by symbolNA.

    Thus, number of molecules can be calculated from number of moles using the following conversion factor:

    (6.023×1023 molecules1 mol).

    Answer to Problem 23QAP

    8.375×1021 atoms.

    Explanation of Solution

    Mass of silver is 1.50 g

    First calculate the number of moles as follows:

    n=mM

    Molar mass of silver is 107.8682 g/mol thus,

    n=1.50 g107.8682 g/mol=0.014 mol

    Therefore, number of moles of silver is0.014 mol.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. The following conversion factor is used to calculate number of atoms:

    (6.023×1023 atoms1 mol)

    Number of atoms in 0.014 mol will be:

    N=0.014 mol(6.023×1023 atoms1 mol)=8.375×1021 atoms

    Thus, number of atoms in silver is8.375×1021 atoms.

    Expert Solution
    Check Mark
    Interpretation Introduction

    (b)

    Interpretation:

    The number of atoms present in the given sample should be calculated.

    Concept Introduction:

    Number of moles is related to mass and molar mass as follows:

    n=mM

    Here, m is mass and M is molar mass.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. This is known as Avogadro’s number and denoted by symbolNA.

    Thus, number of molecules can be calculated from number of moles using the following conversion factor:

    (6.023×1023 molecules1 mol).

    Answer to Problem 23QAP

    9.03×1020 atoms.

    Explanation of Solution

    Number of moles of copper is 0.0015 mol.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. The following conversion factor is used to calculate number of atoms:

    (6.023×1023 atoms1 mol)

    Number of atoms in 0.0015 mol will be:

    N=0.0015 mol(6.023×1023 atoms1 mol)=9.03×1020 atoms

    Thus, number of atoms in copper is9.03×1020 atoms.

    Expert Solution
    Check Mark
    Interpretation Introduction

    (c)

    Interpretation:

    The number of atoms present in the given sample should be calculated.

    Concept Introduction:

    Number of moles is related to mass and molar mass as follows:

    n=mM

    Here, m is mass and M is molar mass.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. This is known as Avogadro’s number and denoted by symbolNA.

    Thus, number of molecules can be calculated from number of moles using the following conversion factor:

    (6.023×1023 molecules1 mol).

    Answer to Problem 23QAP

    1.421×1019 atoms.

    Explanation of Solution

    Mass of copper is 0.0015 g

    First calculate the number of moles as follows:

    n=mM

    Molar mass of copper is 63.546 g/mol thus,

    n=0.0015 g63.546 g/mol=2.36×105 mol

    The number of copper atoms is2.36×105 mol.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. The following conversion factor is used to calculate number of atoms:

    (6.023×1023 atoms1 mol)

    Number of atoms in2.36×105 mol will be:

    N=2.36×105 mol(6.023×1023 atoms1 mol)=1.421×1019 atoms

    Thus, number of atoms of copper is1.421×1019 atoms.

    Expert Solution
    Check Mark
    Interpretation Introduction

    (d)

    Interpretation:

    The number of atoms present in the given sample should be calculated.

    Concept Introduction:

    Number of moles is related to mass and molar mass as follows:

    n=mM

    Here, m is mass and M is molar mass.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. This is known as Avogadro’s number and denoted by symbolNA.

    Thus, number of molecules can be calculated from number of moles using the following conversion factor:

    (6.023×1023 molecules1 mol).

    Answer to Problem 23QAP

    4.95×1025 atoms.

    Explanation of Solution

    Mass of magnesium is 2.00 kg

    First calculate the number of moles of magnesium as follows:

    n=mM

    Molar mass of magnesium is 24.305 g/mol thus,

    n=2.00 kg(1000 g1 kg)24.305 g/mol=82.28 mol

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. The following conversion factor is used to calculate number of atoms:

    (6.023×1023 atoms1 mol)

    Number of atoms in82.28 mol will be:

    N=82.28 mol(6.023×1023 atoms1 mol)=4.95×1025 atoms

    Thus, number of atoms of magnesium is4.95×1025 atoms.

    Expert Solution
    Check Mark
    Interpretation Introduction

    (e)

    Interpretation:

    The number of atoms present in the given sample should be calculated.

    Concept Introduction:

    Number of moles is related to mass and molar mass as follows:

    n=mM

    Here, m is mass and M is molar mass.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. This is known as Avogadro’s number and denoted by symbolNA.

    Thus, number of molecules can be calculated from number of moles using the following conversion factor:

    (6.023×1023 molecules1 mol).

    Answer to Problem 23QAP

    9.97×1023 atoms.

    Explanation of Solution

    Mass of calcium is 2.34 oz

    Convert it into grams as using the following conversion factor:

    (28.35 g1 oz)

    Mass in grams will be:

    m=2.34 oz(28.35 g1 oz)=66.34 g

    First calculate the number of moles as follows:

    n=mM

    Molar mass of calcium is 40.078 g/mol thus,

    n=66.34 g40.078 g/mol=1.655 mol

    Number of moles of calcium is1.655 mol.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. The following conversion factor is used to calculate number of atoms:

    (6.023×1023 atoms1 mol)

    Number of atoms in1.655 mol will be:

    N=1.655 mol(6.023×1023 atoms1 mol)=9.97×1023 atoms

    Thus, number of atoms of calcium is9.97×1023 atoms.

    Expert Solution
    Check Mark
    Interpretation Introduction

    (f)

    Interpretation:

    The number of atoms present in the given sample should be calculated.

    Concept Introduction:

    Number of moles is related to mass and molar mass as follows:

    n=mM

    Here, m is mass and M is molar mass.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. This is known as Avogadro’s number and denoted by symbolNA.

    Thus, number of molecules can be calculated from number of moles using the following conversion factor:

    (6.023×1023 molecules1 mol).

    Answer to Problem 23QAP

    3.516×1022 atoms.

    Explanation of Solution

    Mass of calcium is 2.34 g

    First calculate the number of moles of calcium as follows:

    n=mM

    Molar mass of calcium is 40.078 g/mol thus,

    n=2.34 g40.078 g/mol=0.058 mol

    Number of moles of calcium is0.058 mol.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. The following conversion factor is used to calculate number of atoms:

    (6.023×1023 atoms1 mol)

    Number of atoms in0.058 mol will be:

    N=0.058 mol(6.023×1023 atoms1 mol)=3.516×1022 atoms

    Thus, number of atoms of calcium is3.516×1022 atoms.

    Expert Solution
    Check Mark
    Interpretation Introduction

    (g)

    Interpretation:

    The number of atoms present in the given sample should be calculated.

    Concept Introduction:

    Number of moles is related to mass and molar mass as follows:

    n=mM

    Here, m is mass and M is molar mass.

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. This is known as Avogadro’s number and denoted by symbolNA.

    Thus, number of molecules can be calculated from number of moles using the following conversion factor:

    (6.023×1023 molecules1 mol).

    Answer to Problem 23QAP

    1.41×1024 atoms.

    Explanation of Solution

    Number of moles of calcium is 2.34 mol

    According to Avogadro’s law, 1 mole of a substance contains6.023×1023 atoms. The following conversion factor is used to calculate number of atoms:

    (6.023×1023 atoms1 mol)

    Number of atoms in 2.34 mol will be:

    N=2.34 mol(6.023×1023 atoms1 mol)=1.41×1024 atoms

    Thus, number of atoms in calcium is1.41×1024 atoms.

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    INTRODUCTORY CHEMISTRY

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