In a gravimetric determination of P, an ...

In a gravimetric determination of `P`, an aqueous solution of dihydrogen phosphate ion `[H_(2)PO_(4)^(-)]` is treated with a mixture of ammonium and magnesium ions to precipitate magnesium ammonium phosphate, `[Mg(NH_(4))PO_(4).6H_(2)O]`. This is heated and decomposed to magnesium pyrophosphate `[Mg_(2)P_(2)O_(7)]`, which is weighed. A solution of `H_(2)PO_(4)^(-)` yielded `1.054 g of Mg_(2)P_(2)O_(7)`. What weight of `NaH_(2)PO_(4)` was present originally? `(Na=23, H=1, P= 31, O=16,Mg=24)`

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In a gravimetric determination of P, an aqueous solution of dihydrogen phosphate ion H_(2)PO_(4)^(-) is treated with a mixture of Ammonium and magnesium ions to precipitate magnesium ammonium phosphate [Mg(NH_(4))PO_(4).6H_(2)O] .This is heated and decomposed to magnesium pyrophosphate (Mg_(2)P_(2)O_(7)) . Which is weighed. A solution of H_(2)PO_(4)^(-) yielded 1.85 g of Mg_(2)P_(2)O_(7) . What weight (grams) of NaH_(2)PO_(4) was present originally.

In a determination of P an aqueous solution of NaH_(2)PO_(4) is treated with a mixture of ammonium and magnesium ammonium phosphate Mg(NH_(4))PO_(4).6H_(2)O . This is heated and decomposed to magnesium pyrophosphate, Mg_(2)P_(2)O_(7) which is weighed . A solution of NaH_(2)PO_(4) yeilded 1.11 g of Mg_(2)P_(2)O_(7) . What weight of NaH_(2)PO_(4) was present originally ? (P = 31)

How many moles of magnesium phosphate, Mg_(3)(PO_(4)_(2) will contain 0.25 mole of oxygen atoms?

How many moles of magnesium phosphate, Mg_(3)(PO_(4))_(2) will contain 0.25 mole of oxygen atoms?

H_(4)underline(P_(2))O_(7)+H_(2)O to 2H_(3)PO_(4)

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