2Fe (s) + 3Cl2 (g) ----> 2FeCl3 (s)
2Fe(s)+3Cl(g) gives 2FeCl3(s)
-2
1. Add a small quantity of the FeCl3 solution into the Na2S(aq.). 2FeCl3+3Na2S=2FeS↓+6NaCl+S↓ the following is the ionic reaction equation 2Fe3+ + S2- = 2FeS↓+ S↓ 2. Add a small quantity of the Na2S solution into the FeCl3(aq.) 2FeCl3 + Na2S =2FeCl2 + 2NaCl + S↓ the following is the ionic reaction equation 2Fe3+ + S2- = S↓ + 2Fe2+
Zn + FeCl2 ------> ZnCl2 + Fe (for Iron(II) ) or 3Zn + 2FeCl3 ------> 3ZnCl2 + 2Fe (for Iron(III) )
2Fe + 3Cl2 --> 2FeCl3
2Fe (s) + 3Cl2 (g) ----> 2FeCl3 (s)
2Fe(ClO3)3 ->2FeCl3 + 9O2
2Fe(s)+3Cl(g) gives 2FeCl3(s)
-2
the equation Fe + Cl2 = FeCl3 would be balanced as...2Fe + 3Cl2 = 2FeCl3
1. Add a small quantity of the FeCl3 solution into the Na2S(aq.). 2FeCl3+3Na2S=2FeS↓+6NaCl+S↓ the following is the ionic reaction equation 2Fe3+ + S2- = 2FeS↓+ S↓ 2. Add a small quantity of the Na2S solution into the FeCl3(aq.) 2FeCl3 + Na2S =2FeCl2 + 2NaCl + S↓ the following is the ionic reaction equation 2Fe3+ + S2- = S↓ + 2Fe2+
Iron (III) chloride. Also know as...., Ferric chloride.
It's a redox equation that's only if you meant to put 2FeCl3 and not CI3
Is there a rationale for this reaction to occur: Zn + 2FeCl3 = ZnCl2 + 2FeCl2
2Fe + 3Cl2 ---> 2FeCl3 (iron(III) chloride) Fe +Cl2 -> FeCl2 (iron(II) chloride)
Zn + FeCl2 ------> ZnCl2 + Fe (for Iron(II) ) or 3Zn + 2FeCl3 ------> 3ZnCl2 + 2Fe (for Iron(III) )