The molecular formula of a commerical r...

The molecular formula of a commerical resin used for exchanging ions in water softening is `C_(8)H_(7)SO_(3)Na` (mo. Wt. 206). What would be the maximum uptake of `Ca^(2+)` ions by the resin when expressed in mole per gram resin-

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The molecular formula of a commercial resin used for exchanging ions in water softening is C_(8)H_(7)SO_(3)Na(mol. Wt. 206) . What would be the maximum uptake of Ca^(2+) ions by the resin when expressed in mole per gram resin?

The molecular formula of a commercial resin used for exchanging ions in water softening is C_(8)H_(7)SO_(3)Na(mol. wt. 206) . What would be the maximum uptake of Ca^(2+) ions by the resin when expressed in mole per gram resin?

The molecular formula of a commercial resin used for exchanging ions in water softening is C_(8)H_(7)SO_(3)Na (Mol.wt.206). What would be the maximum uptake of Ca^(2+) ions by the resin when expressed in mole per gram resin?

The molecular formula of a commercial resin used for exchanging ions in water softening is C_8H_7SO_3Na (Mol. Wt. 206). What would be the maximum uptake of Ca^(2+) ions by the resin when expressed in mole per gram resin ?

The molecular formula of a commerical resin used for exchanging ions in water softening is `C_(8)H_(7)SO_(3)Na` (mo. Wt. 206). What would be the maximum uptake of `Ca^(2+)` ions by the resin when expressed in mole per gram resin-

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