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Question: One mole of \[{\text{C}}{{\text{O}}_2}\] contains: A. \(3{\text{g}}\) atoms of \[{\text{C}}{{\text...

One mole of CO2{\text{C}}{{\text{O}}_2} contains:
A. 3g3{\text{g}} atoms of CO2{\text{C}}{{\text{O}}_2}
B. 18×102318 \times {10^{23}} molecules
C. 6×10236 \times {10^{23}} O{\text{O}} atoms
D. 6×10236 \times {10^{23}} C{\text{C}} atoms

Explanation

Solution

Stoichiometry is the study of the quantitative aspects of chemical reactions. Chemical equations are concise representations of chemical reactions. Mole is defined as the quantity of a substance that contains the same number of ultimate particles as are present in 12g12{\text{g}} of carbon12 - 12.

Complete step by step answer:
Stoichiometry deals with the numerical relationships of elements and compounds and the mathematical proportions of reactants and products in chemical transformations. Concentration is the amount of solute dissolved in a given amount of solution. There are different types of concentration units. Formula and molecular mass deal with individual atoms and molecules. Mole is the unit that relates the number of particles and mass.
One mole of an element contains 6.022×10236.022 \times {10^{23}} particles. This absolute number is called Avogadro’s number. Mass of one mole of substance is called molar mass. Or molar mass of an element is equal to the molecular weight.
A. One mole of CO2{\text{C}}{{\text{O}}_2} contains its molar mass (in grams), i.e. 44g44{\text{g}} atoms of CO2{\text{C}}{{\text{O}}_2} has 6.022×10236.022 \times {10^{23}} particles.
B. 18×102318 \times {10^{23}} molecules are contained in three moles of CO2{\text{C}}{{\text{O}}_2}.
One mole of CO2{\text{C}}{{\text{O}}_2} contains three atoms, i.e. one carbon and two oxygen atoms. Thus it contains 6×10236 \times {10^{23}} C{\text{C}} atoms and 2×6.022×102312×10232 \times 6.022 \times {10^{23}} \sim 12 \times {10^{23}} O{\text{O}} atoms.

Therefore we can say that out of the given four options, D is the correct option.

Additional information:
Mole concepts enable us to solve stoichiometric problems involving mass relations of reactants and products in chemical reactions.

Note:
Moles provide a bridge from molecular scale to real-world scale. One mole of molecules or formula units contain Avogadro number times the number of atoms or ions of each element in the compound. Each chemical equation provides information about the amount of reactants produced.