If water contains 10 ppm of `MgCl_2` and 8 ppm of `CaSO_4`, calculate the ppm of `CaCO_3`.

If water contains 10 p p m of MgCl_(2) and 8p p m of CaSO_(4) calculate the p p m of CaCO_(3)

Solution of 100 ml water contains 0.73 g of Mg(HCO_(3))_(2) and 0.81g of Ca(HCO_(3))_(2) calculate the hardness ini terms of ppm of CaCO_(3)

A sample of hard water contains 1 mg CaCl_2 and 1 mg MgCl_2 per litre. Calculate the hardness of water in terms of CaCO_3 present in per 10^(6) parts of water. (a). 2.5 ppm (b). 1.95 ppm (c). 2.15 ppm (d). 195 ppm

A sample of hard water contains 96 ppm of SO_(4)^(2-) and 183 ppm of HCO_(3)^(-) , with Ca^(2+) as the only cation. How many moles of CaO will be required to remove HCO_(3)^(-) from 1000 kg of this water ? If 1000 kg of this water is treated with the amount of CaO calculated above , what will be the concentration (in ppm ) of residual Ca^(2+) ions ? (Assume CaCO_(3) to be completely insoluble in water ). If the Ca^(2+) ions in one litre of the treated water are completely exchanged with hydrogen ions, what will be its pH ? (One ppm means one part of the substance in one million part of water , mass/mass .)

A sample of hard water contains 96 ppm of SO_(4)^(2-) and 183 ppm of HCO_(3)^(-) "with" Ca^(2+) as the only cation. How many moles of CaO will be required to remove HCO_(3)^(-) from 1000 kg of this water ? If 1000 kg of this water is treated with the amount of CaO calculated above, what will be the concentration (in ppm) of residual Ca^(2+) ions ? (Assume CaCO_(3) to be completely insoluble in water). If the Ca^(2+) ions in one litre of the treated water are completely exchanged with hydrogen ions, what will be its pH ? (One ppm means one part of the substance in one million parts of water , weight/weight).

One kilogram sample of hard water contains 4.44 mg of CaCl_(2) and 1.9 mg of NaCl. The total hardness in tems of ppm of CaCO_(3) is :

500 gms of water contions 6xx10^-3 gms of dissolved MgSO_(4 in it. Calculate the hardness of water in ppm of CaCO_(3) ?

A sample of hard water contains 96 ppm of SO_(4)^(2-) and 183 ppm of HCO_(3)^(-) from 1000 kg of this water ? If 1000 kg of this water is treated with the amount of CaO calculated above , what will be the concentration ( in ppm) of residual Ca^(2+) ions? (Assume CaCO_(3) to be completely exchanged with hydrogen ions , in one litre of the treated water are completely exchanged with hydrogen ions, what will be its pH? (One ppm means one part of the substance in one million parts of water , weight/weight )