Respuesta :
Answer:
Option A
Explanation:
Number of millimoles of Na3PO4 = 1 × 100 = 100
Number of millimoles of AgNO3 = 1 × 100 = 100
When 1 mole of Na3PO4 is dissociated we get 3 moles of sodium ions and 1 mole of phosphate ion
When 1 mole of AgNO3 is dissociated, we get 1 mole of Ag+ and 1 mole of NO3-
As Ag+ concentration is negligible, the dissociated Ag+ ion must have form the precipitate with phosphate ion and as number of moles of Ag+ and phosphate ion are same, therefore the concentration of phosphate ion must be negligible
Here as 100 millimoles of Na3PO4 is there, we get 300 millimoles of Na+ and 100 millimoles of PO43-
And as 100 millimoles of AgNO3 is there, we get 100 millimoles of Ag+ and 100 millimoles of NO3-
∴ Increasing order of concentration will be PO43- < NO3- < Na+
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Answer:
A. PO43- < NO3- < Na+
Explanation:
Here’s the reaction equation:
Na3PO4 + 3AgNO3 = Ag3PO4 + 3Na+ + 3NO3-
All of the Ag and PO43- in the solution reacted to form the Ag3PO4 which is the yellow precipitate, leaving little or no Ag or PO43- left in the solution. This narrows down the answer to options A and B.
Since the concentrations and the volumes of the reactants are the same, the number of moles will also be the same.
Na3PO4 will release 3 moles of Na+ while AgNO3 releases 1 mole of NO3-. Hence, the Na+ would be more in solution than the NO3-, narrowing the answer further down to option A.
PO43- < NO3- < Na+
