(1-a)
Interpretation:
The number of candy pieces in
Concept introduction:
Mole:
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(1-a)
Answer to Problem 3.17QP
Number of candy pieces in
Explanation of Solution
To calculate the number of candy pieces in
Given,
From the above mole concept, 1 mole of elemental sample contains
Number of candy pieces in
Give weight of candy and number of candies present in per kg are plugged in above equation to give number of candy pieces in
Number of candy pieces in
The number of candy pieces in
(1-b)
Interpretation:
The mass of 10 dozen candies should be calculated.
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(1-b)
Answer to Problem 3.17QP
The mass of 10 dozen candies is
Explanation of Solution
To calculate the mass of 10 dozen candies.
Given,
From the above mole concept, 1 mole of elemental sample contains
The mass of 10 dozen candies is,
1 dozen contains 12 pieces means 10 dozen contains 120 candy pieces.
The number of candies present in per dozen and number of candies present in
The mass of 10 dozen candies
The mass of 10 dozen candies was calculated.
(1-c)
Interpretation:
The mass of 1 candy piece should be calculated.
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(1-c)
Answer to Problem 3.17QP
The mass of 1 candy piece is
Explanation of Solution
To calculate the mass of 1 candy piece.
Given,
From the above mole concept, 1 mole of elemental sample contains
The mass of 1 candy piece is,
Number of candies present in
The mass of 1 candy piece is
The mass of 1 candy piece was calculated.
(1-d)
Interpretation:
The mass of 2.0 moles of candy should be calculated.
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(1-d)
Answer to Problem 3.17QP
The mass of 2.0 mole candy is
Explanation of Solution
To calculate the mass of 2.0 moles of candies.
Given,
From the above mole concept, 1 mole of elemental sample contains
1 mole of candy contains
The mass of 1 mole candy is,
Number of candies present in
The mass of 2.0 mole candy is
The mass of 2.0 moles of candies were calculated.
(2-a)
Interpretation:
The number of Helium atoms present in
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(2-a)
Answer to Problem 3.17QP
The number of Helium atoms present in
Explanation of Solution
To calculate the number of Helium atoms present in
Given,
Molar mass of Helium is
From the above mole concept, 1 mole of elemental sample contains
The number of Helium atoms present in
Molar mass of Helium and given weight of Helium sample are plugged in above equation to give the number of Helium atoms present in
The number of Helium atoms present in
The number of Helium atoms present in
(2-b)
Interpretation:
The mass of 10 dozen Helium atoms should be calculated.
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(2-b)
Answer to Problem 3.17QP
The mass of 10 dozen Helium atoms is
Explanation of Solution
To calculate the mass of 10 dozen Helium atoms
Given,
Molar mass of Helium is
From the above mole concept, 1 mole of elemental sample contains
1 dozen contains 12 numbers so 10 dozen contains 120 number of Helium atoms.
The mass of 10 dozen Helium atoms is,
Molar mass of Helium and number of atoms that are present in 10 dozen are plugged in above equation to give mass of 10 dozen Helium atoms.
The mass of 10 dozen Helium atoms is
The mass of 10 dozen Helium atoms calculated.
(2-c)
Interpretation:
The mass of one Helium atom should be calculated.
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(2-c)
Answer to Problem 3.17QP
The mass of one Helium atom is
Explanation of Solution
To calculate the mass of one Helium atom.
Given,
Molar mass of Helium is
From the above mole concept, 1 mole of elemental sample contains
The mass of one Helium atom is,
Molar mass of Helium and is plugged in above equation to give the mass of one Helium atom.
The mass of one Helium atom is
The mass of one Helium atom was calculated.
(2-d)
Interpretation:
The mass of 2.0 mole of Helium should be calculated.
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
(2-d)
Answer to Problem 3.17QP
The mass of 2.0 mole Helium is
Explanation of Solution
To calculate the mass of 2.0 mole Helium.
Given,
Molar mass of Helium is
From the above mole concept, 1 mole of elemental sample contains
The mass of 2.0 mole Helium is,
Molar mass of Helium and is plugged in above equation to give the mass of 2.0 mole Helium.
The mass of 2.0 mole Helium is
The mass of 2.0 mole of Helium was calculated.
(3-a)
Interpretation:
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
Binkles:
(3-a)
Answer to Problem 3.17QP
The masses of nails and Helium atom are different so the
Explanation of Solution
To explain the binkles of
Given,
Molar mass of Helium is
One binkle has
The masses of nails and Helium atom are different so the
Binkles of
(3-b)
Interpretation:
The higher mass containing option should be given from the
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
Binkles:
The
(3-b)
Answer to Problem 3.17QP
The masses of
Explanation of Solution
To explain the mass of
Given,
Molar mass of Helium is
One binkle has
The masses of
The higher mass containing option should be given from
(3-c)
Interpretation:
The more number of atom containing option should be given from
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is
One mole equal of atom equal to Avogadro number
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
Binkles:
The
(3-c)
Answer to Problem 3.17QP
The masses of
Explanation of Solution
To explain the mass of
Given,
Molar mass of Helium is
Molar mass of Lithium is
One binkle has
The masses of
The more number of atom containing option was given from
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