chemistry chapter 9
molar mass can be used to relate
-mass of reactant to moles of reactant -moles of product to mass of product - mass of product to moles of product
actual yield is affected by
-side reactions that compete with the main reactions -impurities in the reactions -amount of reactions
what is the measured amount of product (using a laboratory balance) obtained from a chemical reaction
actual yield
when a chemical reaction is carried out under ideal conditions is assumed that
all reactions are completely converted into products
to determine the limiting reactant in a chemical reaction one must know the
available amount of all reactants
if you know the mole ratio of a reactant and product in a chemical reaction you can
calculated the mass of the product produced from a known mass of reactant
actual yield is determined by
experiments
the units of molar mass are
g/mol
the actual yield of a chemical reaction is generally
less than the theoretical yield
which reactant controls the amount of product formed in a chemical reaction
limiting reactant
the type of stoichiometry problem that involves the most steps is a
mass-to-mass conversion
a balanced chemical equation allows you to determine the
mole ratio of any two substances in the reaction
the efficiency of a chemical reaction is best expressed by the
percentage yield
when the limiting reactant in a chemical reaction is completely used the
reaction stops
the coefficients in a chemical equation represent the
relative numbers of moles of reactants and products
a chemical equation is balanced when the
same number of each kind of atom appear in the reactants and in the products
if percentage yield is equal to 100% then
the actual yield is equal to the theoretical yield
stoichiometry is based on chemical equations and
the law of conservation of mass
which of the following could be studied using stoichiometry
the mass of potassium required to produce a known mass of potassium chloride
knowing the mole ratio of a reactant and product in a chemical reaction would allow you to determine
the mass of the product produced from a known mass of reactant
which information is not needed to solve a mass-to-mass stoichiometric calculation
the mass ratio
the number of significant figures in an answer to a stoichiometry problem is determined only by
the number of significant figures of any measured quantities of reactants or products in the problem
the fewest steps are required to solve stiochiometry problems is when
the reactant is given in moles and the product is then calculated in moles
if a chemist calculates the maximum amount of product that could be obtained in a chemical reaction she is calculating the
theoretical yield
the limiting reactant of a reaction can be used to calculate the
theoretical yield
what is the maximum possible amount of product obtained in a chemical reaction
theoretical yield
molar masses are determined from
values found on the periodic table
