➣ The combustion reaction is a reaction where the oxygen reacts with a compound formed by carbon and hydrogen. Its products are carbon dioxide and water when the combustion is complete. ➣ The molecular weight (MW) can be defined in the following way, MW= ∑ n i A i Where n i is the number of atoms of element i that form the molecule and A i is the atomic weight of element i. ➣ The stoichiometric coefficients show the reactants proportions that are transformed and the products proportions that are produced. ➣ The molar ratio can be used to relate: The moles of product formed from of certain moles of reactant. The moles of reactant needed to form certain moles of a product. The moles of a reactant needed to react with certain moles of a second reactant.
➣ The combustion reaction is a reaction where the oxygen reacts with a compound formed by carbon and hydrogen. Its products are carbon dioxide and water when the combustion is complete. ➣ The molecular weight (MW) can be defined in the following way, MW= ∑ n i A i Where n i is the number of atoms of element i that form the molecule and A i is the atomic weight of element i. ➣ The stoichiometric coefficients show the reactants proportions that are transformed and the products proportions that are produced. ➣ The molar ratio can be used to relate: The moles of product formed from of certain moles of reactant. The moles of reactant needed to form certain moles of a product. The moles of a reactant needed to react with certain moles of a second reactant.
Definition Definition Number that is expressed before molecules, ions, and atoms such that it balances out the number of components present on either section of the equation in a chemical reaction. Stoichiometric coefficients can be a fraction or a whole number and are useful in determining the mole ratio among the reactants and products. In any equalized chemical equation, the number of components on either side of the equation will be the same.
Chapter 4, Problem 4.18PAE
xInterpretation:
The gas (CH4 or C2H6) that produces 1.80 g of water when 1.00 -g of this gas is combusted in excess O2 has to be determined. Assuming complete combustion.
Interpretation Introduction
Concept Introduction:
➣ The combustion reaction is a reaction where the oxygen reacts with a compound formed by carbon and hydrogen. Its products are carbon dioxide and water when the combustion is complete.
➣ The molecular weight (MW) can be defined in the following way,
MW=∑niAi
Where ni is the number of atoms of element i that form the molecule and Ai is the atomic weight of element i.
➣ The stoichiometric coefficients show the reactants proportions that are transformed and the products proportions that are produced.
➣ The molar ratio can be used to relate:
The moles of product formed from of certain moles of reactant.
The moles of reactant needed to form certain moles of a product.
The moles of a reactant needed to react with certain moles of a second reactant.