Silver chloride[solid] and sodium trioxonitrate(v)[aqueous] can be separated by which separation techniques
Your name for NaNO3 is incorrect.
Filtering will separate aq NaNO3 from AgCl solid.
Method use to separate trioxonitrate v equeous
Silver chloride (AgCl) is insoluble in water, while sodium trioxonitrate(V) (NaNO3) is soluble in water. Therefore, the separation of these two substances can be achieved using the technique of filtration.
Here are the steps to separate silver chloride and sodium trioxonitrate(V):
1. Prepare a filter funnel and a filter paper.
2. Place the mixture of silver chloride and sodium trioxonitrate(V) in a beaker.
3. Set up the filter funnel on top of another clean beaker.
4. Fold the filter paper and place it inside the filter funnel.
5. Pour the mixture into the filter funnel slowly, allowing the liquid (sodium trioxonitrate(V) solution) to pass through the filter paper.
6. The insoluble silver chloride particles will be trapped on the filter paper, while the aqueous sodium trioxonitrate(V) solution will pass through and collect in the lower beaker.
7. Carefully remove the filter paper with the trapped silver chloride and allow it to dry. The solid silver chloride can be collected at this point.
8. The separated sodium trioxonitrate(V) solution can be further processed if desired (e.g., by evaporating the water to obtain solid NaNO3).
By using filtration, we are able to separate the insoluble solid (silver chloride) from the soluble compound (sodium trioxonitrate(V)) based on their differing solubility characteristics in water.
Silver chloride (AgCl) and sodium trioxonitrate(V) (NaNO3) can be separated using a process called precipitation followed by filtration. Here's how you can do it:
1. Prepare a mixture of the solid silver chloride and the aqueous sodium trioxonitrate(V). This can be done by dissolving the sodium trioxonitrate(V) in water and adding the silver chloride to the solution.
2. Stir the mixture gently to ensure proper mixing.
3. When the silver chloride and sodium trioxonitrate(V) are combined, a precipitation reaction occurs. This means that the silver chloride forms a solid precipitate while the sodium trioxonitrate(V) remains in the aqueous solution.
4. Allow the mixture to settle for some time. The silver chloride particles will settle at the bottom of the container, while the sodium trioxonitrate(V) solution will remain on top.
5. Once the precipitate has settled, carefully decant (pour off) the liquid portion (sodium trioxonitrate(V) solution) from the solid precipitate.
6. The remaining solid precipitate is the separated silver chloride.
7. To ensure complete separation, perform a process called filtration. Transfer the precipitate to a filter paper in a filter funnel. The filter paper will allow the liquid (water and sodium trioxonitrate(V)) to pass through while retaining the solid silver chloride.
8. Once the filtration is complete, the solid silver chloride will be left on the filter paper, and the liquid will pass through into a separate container.
By following these steps, you can effectively separate silver chloride and sodium trioxonitrate(V) using precipitation and filtration techniques.