Ba 3 (PO 4 ) 2 (s) <---> 3Ba 2+ (aq) + 2PO 4 3- (aq) My question is, for Ba 3 (P
ID: 500881 • Letter: B
Question
Ba3(PO4)2 (s) <---> 3Ba2+ (aq) + 2PO43- (aq)
My question is, for Ba3(PO4)2, how do you obtain 3Ba2+ + 2PO43- ? Where are the "3" in front of the Ba and the "2" in front of the PO coming from? I know it has something to do with net ionic charges having balance out, but I am having a difficult time with this.
Also, for (PO4)2 ... is the subscript 2 having to be applied to both the P and the O4? As in, am I supposed to take the charge on P, which is -3, and multiply that by 2? And am I supposed to take the charge on oxygen, which is -2, and multiply that by 8? (Taking the subscript 2 and multiplying it by the 4 to get 8).
Please explain as clearly as possible, I want to be sure that I can understand this.
Thank you!
Explanation / Answer
Ba3(PO4)2 (s) <---> 3Ba2+ (aq) + 2PO43- (aq)
Writing the formulafor an ionic compound: we follow the following procedure.
Actually Ba3(PO4)2 is formed like this:
the ionic symbol of Barium is Ba+2 because it is a metal and it is in IIA group and it loses easily 2 electrons.
(PO4)3- is a compound ion, it exists as as one unit.
If you consider (PO4), the oxidation state of P-atom is +5 and the O-atom is -2.
Here 4 oxygen atoms are there, so the total oxidation number is ------ -8.
Now if we add +5 and -8 , the total is -3.
Hence the symbol of Phosphate ion is (PO4)-3 .
Now if we write the formula:
1. Ba+2 (PO4)-3
2. WRITE THE VALENCIES: WITHOUT THE CHARGES:
Ba2 (PO4)3
3. Cris-cross the valencies:
(Ba)3 (PO4)2
Hence the formula is : Ba3 (PO4)2
This formula represents 3 Ba ions and 2 phosphate ions in it.
So when it is dissolved in water , it forms 3 Ba ions and 2 phosphate ions .
Hope this is clear!
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