- Most alkali metal compounds and
Scompounds are soluble.
- Cl-, Br-, I- compounds are soluble,
except when they contain Ag+,
,or Pb2+.
- F- compounds are soluble, except when they contain group 2A metals.
,and CH3COO- compounds are soluble.-
compounds are soluble, except when they include Ca2+, Sr2+,
Ba2+, Ag+, Pb2+, or
-
,
,
,
S2-, OH-, and O2- compounds are insoluble.
- Group 2A metal oxides are classified as strong bases even though they are not very soluble.
The two solubility rules that you will use the most are numbers 1 and 4. You
must memorize that all group 1A metal and ammonium compounds are soluble. As
soon as you see a compound
,
Li, Na, K, Rb, Cs, or Fr, you should know that it’s soluble. Also, all nitrates
are soluble—look at the end of the compound. If it ends in,
you know that it’s soluble.
What’s the big deal with solubility? Well, if the ion is soluble, it won’t form
a precipitate, and this means it doesn’t react and should be left out of the net
ionic equation. The key is first to write the compound’s chemical formula and
then determine if it’s soluble. If it is soluble, then ionize it—if it isn’t,
don’t ionize it; leave it as a molecule.
Here are some additional rules about common reaction types that you should be
familiar with for the exam:
- If an insoluble precipitate or gas can be formed in a reaction, it probably will
be.
- Oxides (except group 1A) are insoluble, and when reacted with water, they form
either acids (nonmetal oxides) or bases (metal oxides).
- There are six strong acids that completely ionize: HCl, HBr, HI, HNO3,
H2SO4, HClO4. All other acids are weak and are
written together, as molecules.
- The strong bases that ionize are oxides and hydroxides of group 1A and 2A
metals. All other oxides and hydroxides are considered weak and written
together, as molecules.
Now try writing some net ionic equations, using the rules above.
Example
Write the net ionic equation for a mixture of solutions of silver nitrate and
lithium bromide.
Explanation
Ag+ + 
+ Li+ + Br- ?
This is a double replacement reaction. Both compounds are soluble, so everything
ionizes. If anything is formed, it will come from recombining the “inside” two
ions with the “outside” two ions to make LiNO3 and AgBr. If either of
them is insoluble, a precipitate will be formed, and the ions that react
to form it will be in our net ionic equation; the other ions are spectators and
should be omitted! As we said, the two possible products are lithium nitrate and
silver bromide. Since halides are soluble except those containing silver,
mercury, or lead, we have a precipitate of silver bromide, and our net ionic
equation looks like this:
Ag
+ + Br
- ? AgBr?
Example
Hydrochloric acid and sodium hydroxide are mixed. Write the net ionic equation.
Explanation
This is a mixture of a strong acid and a strong base, so each ionizes
completely.
H+ + Cl- + Na+ + OH- ?
The two possible compounds formed are sodium chloride, which is soluble, and
water, which is molecular; thus water is the only product in our net ionic
equation
.
H
+ + OH
- ? H
2O
Example
Chlorine gas is bubbled into a solution of potassium iodide; write the net ionic
equation.
Explanation
This one is a single replacement, so you need to consider the activity series.
Since halogens are involved, you can determine their activity by using the
periodic table: Cl is more active than I.
Cl
2 + K
+ + I
- ?
Remember that halogen is diatomic and that all potassium compounds are soluble.
The resulting compound is also soluble, so K+ is a spectator and is
left out of the final equation.
Cl2 + I- ? I2 + Cl-
Next to display next topic in the chapter.
Practice Questions
Test Prep Lessons With Video Lessons and Explained MCQ
Large number of solved practice MCQ with explanations. Video Lessons and 10 Fully explained Grand/Full Tests.