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Empirical and Molecular Formulas
Ch. 11, Sec. 4 Empirical and Molecular Formulas
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% Composition The percent by mass of each element in a compound
) % Ca; 63.89% Cl ) % Na, 22.58%S, 45.05% O ) H2SO3 ) 3.08% H, 31.61% P, 65.31% O
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Empirical Formula The formula with the lowest whole-number mole ratio of the elements EX: CH2O is the empirical formula glucose
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Molecular Formula Formula that specifies the actual # of atoms of each element in one molecule or formula unit of the substance EX: C6H12O6 is the molecular formula for glucose.
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Steps to Determine an Empirical Formula
1.) Find the # of moles of each element. (Divide the amount of each element by its molar mass.) 2.) Divide each mole value by the smallest answer. 3.) Round to the nearest whole #, if it is close. This is the mole ratio of the elements and is represented by subscripts in the empirical formula. **If you get ___.5 at this step, multiply EACH by 2. **If you get ___.25 at this step, multiply EACH by 4. **If you get ___.33 or ___.66, multiply EACH by 3.
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If you are given “%” of each element instead of a mass in grams, just replace the “%” with “g” and calculate as you normally do with “g”.
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Determining the Molecular Formula
To determine the molecular formula of a compound, Calculate the following: Experimentally determined molar mass mass of the empirical formula Multiply that answer through the empirical formula molecular formula = (empirical formula)n
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Determining the Formula for a Hydrate
Write down ALL info., including the mass of both the hydrated compound AND the anhydrate Calculate: hydrated cpd. - anhydrate = g H2O Find the moles of the anhydrate and the moles of H2O Get the mole to mole ratio (by dividing by the smaller number from #3 above) Write the formula, using a “ “ (dot) to attach the H2O Write the name of the hydrate Look at Example Problem on page 340.
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