While many compounds containing sulfate are soluble, barium sulfate is one of the exceptions. When you put it in water, nothing happens.
If the sodium sulfate and barium nitrate are both in solution in water, a precipitate of barium sulfate will be formed, because this salt is much less soluble in water than barium nitrate, sodium sulfate, or sodium nitrate.
One method to separate barium sulfate from potassium chloride is by precipitation. Adding a solution containing a soluble barium compound like barium nitrate will cause barium sulfate to precipitate out. The resulting mixture can then be filtered to separate the solid barium sulfate from the potassium chloride solution.
When you add sodium sulfate to barium chloride, a white precipitate of barium sulfate forms. This is due to the reaction between sodium sulfate and barium chloride, which forms insoluble barium sulfate.
When barium sulfate is mixed with calcium chloride, a double displacement reaction occurs where barium chloride and calcium sulfate are formed. Barium chloride is soluble in water, while calcium sulfate is not, so a solid precipitate of calcium sulfate will form.
BaSO4 + 2H2O --> Ba(OH)2 + H2SO4 There is now one Barium, one Sulfate, two hydroxides, and two oxygens on either side of the arrow. The above reaction would make sense if barium sulfate was soluble in water... but it is not. In fact, it is so insoluble in water that there is no reaction.
If the sodium sulfate and barium nitrate are both in solution in water, a precipitate of barium sulfate will be formed, because this salt is much less soluble in water than barium nitrate, sodium sulfate, or sodium nitrate.
When barium sulfate reacts with copper sulfate, a double displacement reaction occurs. Barium sulfate and copper sulfate exchange ions to form barium sulfate and copper sulfate precipitates. The reaction results in the formation of a white solid of barium sulfate, which is insoluble in water.
By filtration barium sulfate being insoluble in water.
When barium chloride solution is combined with sodium sulfate solution, a white precipitate of barium sulfate is formed. This is because barium sulfate is insoluble in water and therefore precipitates out of the solution. This reaction is used to detect the presence of sulfate ions in a solution.
When barium chloride reacts with potassium sulfate, a double displacement reaction occurs. Barium sulfate and potassium chloride are formed as products. BaCl2(aq) + K2SO4(aq) → BaSO4(s) + 2KCl(aq). Barium sulfate is insoluble in water and precipitates out as a white solid.
Yes, when barium acetate and lithium sulfate are mixed, a white precipitate of barium sulfate would form due to a double displacement reaction. This is because barium sulfate is insoluble in water.
Combining sodium sulfate and barium nitrate would result in the formation of barium sulfate and sodium nitrate. Barium sulfate is a white precipitate that is insoluble in water, while sodium nitrate remains in solution.
One method to separate barium sulfate from potassium chloride is by precipitation. Adding a solution containing a soluble barium compound like barium nitrate will cause barium sulfate to precipitate out. The resulting mixture can then be filtered to separate the solid barium sulfate from the potassium chloride solution.
When you add sodium sulfate to barium chloride, a white precipitate of barium sulfate forms. This is due to the reaction between sodium sulfate and barium chloride, which forms insoluble barium sulfate.
Mix equal volumes of equimolar solutions of sulfuric acid and barium hydroxide. What you will get is a white precipitate of barium sulfate and water (and it will get REALLY hot because of the exothermic formation of water from H+ and OH-).
Yes, sodium sulfate is water soluble. Many sulfates are soluble in water. A notable exception is barium sulfate, whose insolubility forms the basis of a test for the presence of sulfate ions. Add barium chloride to a solution containing sulfate ions. The white barium sulfate precipitate is a positive test for sulfate ions.
Barium sulfate is sparingly soluble in water, while barium chloride is more soluble. Barium sulfate has a solubility of about 0.0015 g/100 mL of water at room temperature, while barium chloride is much more soluble at about 36 g/100 mL of water at room temperature.