Question 3.) Calculate the grams of phosphorus in the 100 ml sample The acid-bas
ID: 580548 • Letter: Q
Question
Question 3.) Calculate the grams of phosphorus in the 100 ml sample
The acid-base titration procedure depends on the ability of a certain stoichiometric amount of sodium hydroxide being capable of transforming the precipitate as follows:
X OH- + (NH4 )3[P(Mo12O40)]×12H2O -> 3 NH4+ + HP042- + 12 MoO42- + Y H2O
Balance this equation to find numerical values for X and Y.
50.00 mL of 0.1000 M sodium hydroxide is added to the sample, enough to have enough NaOH to react plus some excess. Titration of the excess NaOH was carried out with standard HCl and was executed to the point where the color of phenolphthalein just disappeared. After adding the NaOH, it required 9.06 mL of 0.1000 M HC1 to reach the endpoint.
Explanation / Answer
Start by writing out the equation as given.
X OH- + (NH4)3[P(Mo12O40)].12H2O --------> 3 NH4+ + HPO42- + 12 MoO42- + Y H2O
We have 36 H (except OH-) on the left and 13 on the right (except H2O). There is a deficit of 23 H on the right; to balance, add 23 H2O on the right. This gives
X OH- + (NH4)3[P(Mo12O40)].12H2O --------> 3 NH4+ + HPO42- + 12 MoO42- + 23 H2O
The number of H on the right is 59 while that on the left is 36 (except OH-). Add 23 OH- on the left to get the balanced equation as
23 OH- + (NH4)3[P(Mo12O40)].12H2O --------> 3 NH4+ + HPO42- + 12 MoO42- + 23 H2O
The above equation is balanced (ans).
As per the stoichiometric equation above,
23 mole OH- = 1 mole HPO4-
Millimoles of NaOH added = (50.00 mL)*(0.1000 M) = 5.000 mmole.
NaOH reacts with HCl as per the equation
NaOH (aq) + HCl (aq) -------> NaCl (aq) + H2O (l)
As per the stoichiometric equation,
1 mole NaOH = 1 mole HCl.
Millimoles of HCl added = millimoles of excess NaOH = (9.06 mL)*(0.1000 M) = 0.906 mmole.
Millimoles of NaOH that gives HPO4- = (5.000 – 0.906) mmole = 4.094 mmole.
Millimoles of HPO4- formed = (4.094 mmole NaOH)*(1 mole HPO4-/23 mole NaOH) = 0.178 mmole.
Now 1 mole HPO4- = 1 mole P.
Atomic mass of P = 30.974 g/mol.
Mass of P in the sample = (0.178 mmole)*(1 mole/1000 mmole)*(30.974 g/mol) = 0.005513372 g 0.005513 g (ans).
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