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A precipitation reaction is a reaction that yields an insoluble product—a precipitate—when two solutions are mixed. When a colorless solution of silver nitrate is mixed with a yellow-orange solution of potassium dichromate, a reddish precipitate of silver dichromate is produced. \[ \ce{ AgNO_3(aq) + K_2Cr_2O_7(aq) \rightarrow Ag_2Cr_2O_7(s) + KNO_3(aq)} \label{4.2.1} \] This unbalanced equation has the general form of an exchange reaction: \[\ce{ AC + BD \rightarrow }\underset{insoluble}{\ce{AD}} + \ce{BC} \label{4.2.2} \] Thus precipitation reactions are a subclass of exchange reactions that occur between ionic compounds when one of the products is insoluble. Because both components of each compound change partners, such reactions are sometimes called double-displacement reactions. Precipitation reactions are used to isolate metals that have been extracted from their ores, and to recover precious metals for recycling. Video: Mixing potassium dichromate and silver nitrate together to initiate a precipitation reaction (Equation \(\ref{4.2.1}\)).Just as important as predicting the product of a reaction is knowing when a chemical reaction will not occur. Simply mixing solutions of two different chemical substances does not guarantee that a reaction will take place. For example, if 500 mL of aqueous \(NaCl\) solution is mixed with 500 mL of aqueous \(KBr\) solution, the final solution has a volume of 1.00 L and contains \(\ce{Na^{+}(aq)}\), \(\ce{Cl^{−}(aq)}\), \(\ce{K^{+}(aq)}\), and \(\ce{Br^{−}(aq)}\). As you will see in (Figure \(\PageIndex{1}\)), none of these species reacts with any of the others. When these solutions are mixed, the only effect is to dilute each solution with the other. Figure \(\PageIndex{1}\): The Effect of Mixing Aqueous \(\ce{KBr}\) and \(\ce{NaCl}\) Solutions. Because no net reaction occurs, the only effect is to dilute each solution with the other. (Water molecules are omitted from molecular views of the solutions for clarity.)
A precipitation reaction occurs when a solid precipitate forms after mixing two strong electrolyte solutions. As stated previously, if none of the species in the solution reacts then no net reaction occurred. Predict what will happen when aqueous solutions of barium chloride and lithium sulfate are mixed. Change the partners of the anions and cations on the reactant side to form new compounds (products): Because barium chloride and lithium sulfate are strong electrolytes, each dissociates completely in water to give a solution that contains the constituent anions and cations. Mixing the two solutions initially gives an aqueous solution that contains \(\ce{Ba^{2+}}\), \(\ce{Cl^{−}}\), \(\ce{Li^{+}}\), and \(\ce{SO4^{2−}}\) ions. The only possible exchange reaction is to form \(\ce{LiCl}\) and \(\ce{BaSO4}\).
No need to correct the formula as both compounds already have their charges balanced. \[\ce{BaCl_2(aq) + Li_2SO_4(aq) \rightarrow BaSO_4 + LiCl} \nonumber \]
\[ \ce{BaCl_2(aq) + Li_2SO_4(aq) \rightarrow BaSO_4(s) + LiCl(aq)} \nonumber \] Table 7.5.1 from the previous section shows that \(\ce{LiCl}\) is soluble in water, but \(\ce{BaSO4}\) is not soluble in water.
\[\ce{BaCl_2(aq) + Li_2SO_4(aq) \rightarrow BaSO_4(s) + 2LiCl(aq)} \nonumber \] Although soluble barium salts are toxic, \(\ce{BaSO4}\) is so insoluble that it can be used to diagnose stomach and intestinal problems without being absorbed into tissues. An outline of the digestive organs appears on x-rays of patients who have been given a “barium milkshake” or a “barium enema”—a suspension of very fine \(\ce{BaSO4}\) particles in water.
Predict what will happen if aqueous solutions of rubidium hydroxide and cobalt(II) chloride are mixed.
Predict what will happen if aqueous solutions of strontium bromide and aluminum nitrate are mixed.
Using the information in Table 7.5.1 from the previous section, predict what will happen in each case involving strong electrolytes.
In a precipitation reaction, a subclass of exchange reactions, an insoluble material (a precipitate) forms when two electrolyte solutions are mixed. To predict the product of a precipitation reaction, all species initially present in the solutions are identified, as are any combinations likely to produce an insoluble salt. Contributions & Attributions
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