Question #06667

1 Answer
Stefan V.
Jun 23, 2015

AgCl + 2NH_4OH -> [Ag(NH_3)_2]Cl + 2H_2OAgCl+2NH4OH[Ag(NH3)2]Cl+2H2O

Explanation:

The trick here is to realize that ammonium hydroxide, NH_4OHNH4OH, is actually ammonia, NH_3NH3, dissolved in water.

NH_(3(aq)) + H_2O_((l)) rightleftharpoons NH_(4(aq))^(+) + OH_((aq))^(-)NH3(aq)+H2O(l)NH+4(aq)+OH(aq)

If you write the complete ionic equation for this reaction, you'll get

AgCl_((s)) + NH_(3(aq)) + cancel(H_2O_((l))) -> [Ag(NH_3)_2]Cl + cancel(H_2O_((l)))

The net ionic equation for this reaction is

AgCl_((s)) + NH_(3(aq)) -> overbrace([Ag(NH_3)_(2(aq))]^(+))^(color(blue)("diamminesilver (I))) + Cl_text((aq])^(-)

The ammonia reacts with the silver cations to form the diamminesilver (I) metal complex. To balance this equation, simply multiply the ammonia molecules present on the reactants' side by 2.

AgCl_((s)) + 2NH_(3(aq)) -> [Ag(NH_3)_(2(aq))]^(+) + Cl_text((aq])^(-)

To get the initial equation balanced, simply multiply NH_4OH by 2.

AgCl + 2NH_4OH -> [Ag(NH_3)_2]Cl + H_2O

Finally, balance the hydrogen and oxygen atoms by multiplying the water molecule present on the products' side by 2.

AgCl + 2NH_4OH -> [Ag(NH_3)_2]Cl + 2H_2O

And that's how the balanced chemical equation looks like.

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