100g of a water samples is found to contain 12 mg of `MgSO_(4)` calculate the hardness of water sample.

500 gms of water contains 6 times 10^(-3) gms of dissolved MgSO_(4) in it. Calculate the hardness of water in ppm of CaCO_(3) ?

1 litre water sample of ground water in an area is found to contain 7.3 mg of Mg(HCO_(3)) and 1.11 mg of CaCl_(2) . Express the hardness of water in that area.

100 mL sample of hard water is titrated with 500 " mL of " 0.001 M EDTA solution at pH=10 , using eriochrome black-T indicator to reach equivalence point. An equal another amount of hard water sample is boiled for 30 min. After filtration and cooling, the same sample is titrated with 200 " mL of " 0.011 M EDTA solution at pH=10 using Mg-EDTA complex solution and erichrome black-T indicator to reach equivalence point. (i). Calculate the total hardness of water sample (temporary + permanent) in ppm of CaCO_3 . (ii). Calculate the permanent hardness of water sample in ppm of CaCO_3 . (iii). Calculate the temporary hardness of water sample in ppm of CaCO_3

100 mL sample of hard water is titrated with 500 mL of 0.001 MEDTA solution at pH=10 , using eriochrome black -T indicator to reach equivalence point. An equal another amount of hard water sample is boiles for 30 mi n . After filtration and cooling, the same sample is titrated with 200 mL of 0.001 M EDTA solution at pH=10 using Mg-EDTA complex solution and erichrome black -T indicator to reach equivalence point. a. Calculate the total hardness of water sample (temprary +permanent) in p p m of CaCO_(3) . b. Calculate the permanent hardness of water sample is p p m of CaCO_(3) . c. Calculate the temporary hardness of water sample is p p m 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