Balanced Molecular Equation:
##Pb(NO_3)_2(aq)## + ##2HCl(aq)## ##rarr## ##PbCl_2(s)## + ##2HNO_3(aq)##
Net Ionic Equation:
##Pb^(2+)(aq)## + ##2Cl^(-)(aq)## ##rarr## ##PbCl_2(s)##
The reaction between lead(II) nitrate and hydrochloric acid is a double replacement reaction also called a double displacement reaction. In a double replacement reaction the cations and anions of the reactants switch places to form new .
The general equation is AB + CD ##rarr## AD + CB where A and C are cations and B and D are anions.
One of the products of a double replacement reaction must be water an insoluble gas that bubbles out of solution or an insoluble precipitate (solid). If none of these occurs then the reaction does not take place.
The possible products of the reaction between lead(II) nitrate and hydrochloric acid are lead(II) chloride ##PbCl_2## and nitric acid ##HNO_3##.
To determine whether a product is insoluble you need to consult a solubility table like the one below:
As you can see lead(II) chloride is insoluble and is therefore a precipitate that which means the double replacement reaction does occur. The balanced molecular equation is written below:
##Pb(NO_3)_2(aq)## + ##2HCl(aq)## ##rarr## ##PbCl_2(s)## + ##2HNO_3(aq)##
The net ionic equation includes only those ions that reacted to form the precipitate.
##Pb^(2+)(aq)## + ##2Cl^(-)(aq)## ##rarr## ##PbCl_2(s)##
Another way to indicate that a product is a precipitate is to write a down arrow after its formula such as ##PbCl_2####darr##.