Chemistry > Stoichiometry > 11.0 Hardness of Water
Stoichiometry
1.0 The Mole
2.0 The Limiting Reagent
3.0 Gravimetric Analysis
4.0 Volumetric Analysis
5.0 Calculation of n-factor
6.0 Redox Reactions
7.0 Titration
7.1 Simple Titration
7.2 Double Titration
7.3 Method
7.4 Titration of the solution containing both $N{a_2}C{O_3}$ and $NaHC{O_3}$
7.5 Titration of the solution containing both $NaOH$ and $N{a_2}C{O_3}$
7.6 Back Titration
8.0 Iodimetric and Iodometric Titrations
9.0 Volume strength peroxide solution
10.0 Percentage Labeling of Oleum
11.0 Hardness of Water
11.1 Temporary Hardness
7.2 Double Titration
7.3 Method
7.4 Titration of the solution containing both $N{a_2}C{O_3}$ and $NaHC{O_3}$
7.5 Titration of the solution containing both $NaOH$ and $N{a_2}C{O_3}$
7.6 Back Titration
It is due to the presence of dissolved $Ca{\left( {HC{O_3}} \right)_2}$ and $Mg{\left( {HC{O_3}} \right)_2}$ in water. To determine the temporary hardness a given volume of hard water is titrated with a strong acid $\left( {HCl{\text{ }}or{\text{ }}{H_2}S{O_4}} \right)$ using methyl orange indicator.