by dissolving the amount you want in mole or grams in one dm3 of water
Barium chloride (BaCl2) is a salt compound that dissociates in solution to form Ba2+ and 2Cl- ions. Since it does not contain any acidic or basic groups that can donate or accept protons, it does not affect the pH of the solution. Therefore, the pH of a solution of BaCl2 would remain neutral around 7.
Yes, barium chloride (BaCl2) is soluble in water.
The reaction between FeSO4 (iron(II) sulfate) and BaCl2 (barium chloride) will produce a precipitate of barium sulfate (BaSO4) and iron(II) chloride (FeCl2) in solution. The balanced chemical equation for the reaction is: FeSO4 + BaCl2 -> BaSO4 + FeCl2.
Heating NaOH before adding BaCl2 helps to dissolve NaOH completely in water, ensuring that no solid NaOH remains undissolved in the solution. This is important because the reaction between BaCl2 and NaOH requires the NaOH to be in solution to react with the BaCl2. Heating the solution can also speed up the reaction between NaOH and BaCl2.
When BaCl2 and NaCl are mixed together, no reaction will occur because Ba and Na have similar reactivities. Both BaCl2 and NaCl are ionic compounds that will remain as separate ions in solution.
Barium chloride (BaCl2) is a salt compound that dissociates in solution to form Ba2+ and 2Cl- ions. Since it does not contain any acidic or basic groups that can donate or accept protons, it does not affect the pH of the solution. Therefore, the pH of a solution of BaCl2 would remain neutral around 7.
Yes, barium chloride (BaCl2) is soluble in water.
The reaction between FeSO4 (iron(II) sulfate) and BaCl2 (barium chloride) will produce a precipitate of barium sulfate (BaSO4) and iron(II) chloride (FeCl2) in solution. The balanced chemical equation for the reaction is: FeSO4 + BaCl2 -> BaSO4 + FeCl2.
Heating NaOH before adding BaCl2 helps to dissolve NaOH completely in water, ensuring that no solid NaOH remains undissolved in the solution. This is important because the reaction between BaCl2 and NaOH requires the NaOH to be in solution to react with the BaCl2. Heating the solution can also speed up the reaction between NaOH and BaCl2.
When BaCl2 and NaCl are mixed together, no reaction will occur because Ba and Na have similar reactivities. Both BaCl2 and NaCl are ionic compounds that will remain as separate ions in solution.
To find the molarity of the BaCl2 solution, first calculate the moles of Na2SO4 in the sample using its molar mass. Then, use the balanced chemical equation of the precipitation reaction to determine the moles of BaCl2 needed to react with the moles of Na2SO4. Finally, divide the moles of BaCl2 by the volume of the solution in liters (57.0 mL = 0.057 L) to find the molarity.
Sulfate ions in a solution are verified by adding BaCl2. If an acid was not added, it might be confused with BaCO3, if the solution has carbonate ions.
S2- + BaCl2 ------> BaS + 2Cl-
BaCl2 is a salt composed of barium (Ba) and chloride (Cl) ions. It is neither an acid nor a base as it does not release or accept protons in solution.
BaCl2 is a neutral salt and does not exhibit acidic properties. When dissolved in water, it will dissociate into ions to form a solution with a pH close to 7.
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Why the NaOH is heated before adding in BaCl2 for determination of purity of NaOH sample?