The salt has dissolved, and is not visible while in solution.
Lake water and sea water look pretty much the same.
When salt is dissolved in water, it becomes transparent and no longer visible. The water may appear slightly cloudy initially due to the stirring or mixing process, but once the salt is fully dissolved, the solution will appear clear.
When salt has dissolved, the reading of the balance will remain the same as before the salt dissolved. The mass of the salt is still present in the solution, even though it is no longer visible as solid particles.
A mixture of sand and salt can be separated by adding water, stirring, and then filtering. When water is added, the salt dissolves, while the sand remains undissolved. Stirring ensures the salt is fully dissolved, and filtering allows you to separate the sand from the saltwater solution. After filtering, the salt can be recovered by evaporating the water.
Mixing salt and pepper results in a MIXTURE, not a new compound.
When stirring salt in water, the salt crystals dissolve and disappear, making the water appear clear again. As the salt dissolves, it breaks down into individual sodium and chlorine ions that become dispersed throughout the water, forming a homogenous solution.
When salt is dissolved in water, it becomes transparent and no longer visible. The water may appear slightly cloudy initially due to the stirring or mixing process, but once the salt is fully dissolved, the solution will appear clear.
Stirring, heating, crushing the salt
When salt has dissolved, the reading of the balance will remain the same as before the salt dissolved. The mass of the salt is still present in the solution, even though it is no longer visible as solid particles.
Add salt crystals to water in a test tube, and agitate until the crystals have dissolved and no longer visible. Then keep adding small amounts of salt and agitate. Eventually the salt will no longer dissolve into the water. Therefore, the liquid is said to be saturated.
Mixing salt and pepper results in a MIXTURE, not a new compound.
When stirring salt in water, the salt crystals dissolve and disappear, making the water appear clear again. As the salt dissolves, it breaks down into individual sodium and chlorine ions that become dispersed throughout the water, forming a homogenous solution.
The time it takes to dissolve salt in water depends on factors like temperature, amount of stirring, and type of salt. Generally, it should dissolve within a few minutes in room temperature water with gentle stirring.
Salt is soluble in water, so when mixed with water, it dissolves and becomes invisible. When salt is mixed with oil and water, the oil creates a barrier between the water and salt, preventing the salt from dissolving into the water and making it appear invisible. Instead, the salt stays suspended in the mixture, making it visible.
Stirring helps to increase the rate of dissolution of common salt in water by promoting more frequent collisions between the salt particles and the water molecules. This helps to overcome the barrier to dissolution and allows the salt to dissolve more quickly and evenly in the water.
The dependent variable is the rate of salt dissolution in the solution.
newdiv
Yes. But you an only do it by stirring it if you dont then it will not dissolve