Concept explainers
4-45 Calculate the number of moles in:
(a) 32 g of methane, CH4
(b) 345.6 g of nitric oxide, NO
(c) 184.4 g of chlorine dioxide, ClO2
(d) 720. g of glycerin, C3H8O3
(a)
Interpretation:
To calculate the number of moles in 32 g of Methane.
Concept Introduction:
Molecular weight is the sum of masses of the atoms present in a molecule.
When we calculate the sum of masses of the elements present in a compound in 1 mole, we calculate it for the Avogadro number, and molar mass comes out in grams.
Hence molar mass is the sum of 1 mole of atoms present in a given compound.
The formula to calculate number of moles present is given by-
Answer to Problem 29P
The number of moles in 32 g of Methane is 2.
Explanation of Solution
In case of Methane,
Molar mass is calculated as sum of 4 Hydrogen atoms and 1 Carbon atom.
Given mass = 32 g.
(b)
Interpretation:
To calculate the number of moles in 345.6 f of Nitric Oxide
Concept Introduction:
Molecular weight is the sum of masses of the atoms present in a molecule.
When we calculate the sum of masses of the elements present in a compound in 1 mole, we calculate it for the Avogadro number, molar mass comes out in grams.
Hence molar mass is the sum of 1 mole of atoms present in a given compound.
The formula to calculate number of moles present is given by-
Answer to Problem 29P
The number of moles in 345.6 of Nitric Oxide
Explanation of Solution
In case of Nitric Oxide
Molar mass is calculated as sum of 1 Nitrogen atoms and 1 Oxygen atom.
Given mass = 345.6 g.
(c)
Interpretation:
To calculate the number of moles in 184.4 g of Chlorine dioxide
Concept Introduction:
Molecular weight is the sum of masses of the atoms present in a molecule.
When we calculate the sum of masses of the elements present in a compound in 1 mole, we calculate it for the Avogadro number, molar mass comes out in grams.
Hence molar mass is the sum of 1 mole of atoms present in a given compound.
The formula to calculate number of moles present is given by-
Answer to Problem 29P
The number of moles in 184.4 g of Chlorine dioxide
Explanation of Solution
In case of Chlorine dioxide
Molar mass is calculated as sum of 1 Chlorine atom and 2 Oxygen atoms.
Given mass = 184.4 g.
(d)
Interpretation:
To calculate the number of moles in 720 g of glycerin
Concept Introduction:
Molecular weight is the sum of masses of the atoms present in a molecule.
When we calculate the sum of masses of the elements present in a compound in 1 mole, we calculate it for the Avogadro number, molar mass comes out in grams.
Hence molar mass is the sum of 1 mole of atoms present in a given compound.
The formula to calculate number of moles present is given by-
Answer to Problem 29P
The number of moles in 720 g of glycerin
Explanation of Solution
In case of Methane,
Molar mass is calculated as sum of 8 Hydrogen atoms, 3 Oxygen atoms and 3 Carbon atoms.
Given mass = 720 g.
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Chapter 4 Solutions
EP INTRO.TO GENERAL,ORGANIC...-OWL ACCE
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