Page 12 - PC 101 practical notes 24-25..
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MANSOURA NATIONAL UNIVERSIY
PHARM D- CLINICAL PHARMACY LEVEL I PHARM. ANAL. CHEM. I (PC 101)
It is the weight of the substance that is equivalent in its reactive power
to 1 mole of hydrogen (i.e. the weight of the substance that will combine with
or replace 1 mole of hydrogen).
The specific definition and calculation of equivalent weight differ
according to the type of the reaction. Now, it will be studied in acid-base
reactions while other reactions will be discussed later.
Definition of Equivalent Weight in acid-base reactions:
It is the weight of the substance that will release, react with or
be chemically equivalent to 1 mole of hydrogen ions (H ) in that reaction.
+
How to calculate it?
a) For acids: Equiv. wt. = M. W. of the acid
no. of replaceabl e H + in one molecule of the acid
ex: equiv. wt. of H2SO4 = M.W. of H2SO4/2 = 98/2 = 49 g H2SO4.
M. W. of the base
no. of replaceabl e OH in one molecule of the base
b) For bases: Equiv. wt. = −
ex: equiv. wt. of NaOH = M.W. of NaOH/1 = 40/1 = 40 g NaOH.
c) For salts: Equiv. wt. = M. W. of the salt
no. of H + equivalent to one molecule of the salt
ex: equiv. wt. of CaCO3 = M.W. of CaCO3 / 2
because CaCO3 + 2 HCl→ CaCl2 + H2O + CO2
+
(i.e. 1 CaCO3 is equivalent to 2 H ).
N.B. In case of salts the number by which we divide the M.W.
of the salt is usually the sum of +ve charges on the cation
radical OR the sum of –ve charges on the anion radical of the
salt.
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