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How much solute can be dissolved before the solution becomes saturated?
The amount of solute that can be dissolved in a solvent before the solution becomes saturated depends on the solubility of the solute in that particular solvent at a given temperature. Once the solution reaches its maximum capacity to dissolve more solute, it becomes saturated and any additional solute will not dissolve.
How many grams of NaNo3 would have to be added to a 100 gram of water at 45 degree Celsius?
To calculate the amount of NaNO3 needed to form a saturated solution at 45°C, the solubility of NaNO3 at this temperature must be known. Once this value is determined, the grams of NaNO3 required can be calculated using the solubility value and the saturation point equation.
Which solid makes a saturated solution when you add 40g of it to 100g of water?
Assuming the solid is the limiting reagent, the saturation point of the solution is reached when no more solid can dissolve in the solvent, creating a saturated solution. The solubility of the solid must be known to determine if 40g can fully dissolve in 100g of water.
What is the mass of NH4CL that must be dissolved in 200 grams of water 50 degree celsius to make a saturated solution?
The solubility of NH4Cl in water at 50°C is approximately 74 grams per 100 grams of water. To make a saturated solution, you would need to dissolve 148 grams of NH4Cl in 200 grams of water.
What is the total mass of NH4Br that must be dissolved in 200 grams of H20 at 60C to produce a saturated solution?
The solubility of NH4Br in water at 60°C is 122 g/100g H2O. To produce a saturated solution, the mass of NH4Br that must be dissolved in 200g of water can be calculated using this ratio. Therefore, the total mass of NH4Br needed would be (122/100) x 200 = 244 grams.
How could you dissolve more solid solute in saturated solution in liquid solvent?
Increasing the temperature the solubility increase.
How much solute can be dissolved before the solution becomes saturated?
The amount of solute that can be dissolved in a solvent before the solution becomes saturated depends on the solubility of the solute in that particular solvent at a given temperature. Once the solution reaches its maximum capacity to dissolve more solute, it becomes saturated and any additional solute will not dissolve.
How many grams of NaNo3 would have to be added to a 100 gram of water at 45 degree Celsius?
To calculate the amount of NaNO3 needed to form a saturated solution at 45°C, the solubility of NaNO3 at this temperature must be known. Once this value is determined, the grams of NaNO3 required can be calculated using the solubility value and the saturation point equation.
Which would you expect to have a greater influence on the effect of a solution in natural water concentration or solubility?
The concentration; to prepare a solution the compound must have a solubility.
What must be stated when describing a saturated solution?
The temperature and what the solute is.
Which solid makes a saturated solution when you add 40g of it to 100g of water?
Assuming the solid is the limiting reagent, the saturation point of the solution is reached when no more solid can dissolve in the solvent, creating a saturated solution. The solubility of the solid must be known to determine if 40g can fully dissolve in 100g of water.
What is the mass of NH4CL that must be dissolved in 200 grams of water 50 degree celsius to make a saturated solution?
The solubility of NH4Cl in water at 50°C is approximately 74 grams per 100 grams of water. To make a saturated solution, you would need to dissolve 148 grams of NH4Cl in 200 grams of water.
What is the total mass of NH4Br that must be dissolved in 200 grams of H20 at 60C to produce a saturated solution?
The solubility of NH4Br in water at 60°C is 122 g/100g H2O. To produce a saturated solution, the mass of NH4Br that must be dissolved in 200g of water can be calculated using this ratio. Therefore, the total mass of NH4Br needed would be (122/100) x 200 = 244 grams.
If a hydrocarbon C5H10 behaves as saturated compound then it must be a?
If a hydrocarbon C5H10 behaves as a saturated compound, it must be a cyclopentane. Saturated compounds contain only single bonds, and in the case of C5H10, cyclopentane is the only possible saturated hydrocarbon solution.
How do you find the solubility of an element using a solubility curve?
To find the solubility of an element using a solubility curve, locate the temperature on the horizontal axis and then find the corresponding solubility value on the vertical axis. Follow the curve that represents the element to determine its solubility at the specific temperature.
How do you make a super saturate solution?
To Make a super saturated solution, you must saturate the solution fully by adding to solute to the solvent until no more dissolves. You then heat the solution and add more solute until there is undissolved solid remaining. let the solution cool, you will have a super saturated solution.
How can one effectively interpret and utilize solubility curves in chemistry?
To effectively interpret and utilize solubility curves in chemistry, one must understand that solubility curves show how the solubility of a substance changes with temperature. By analyzing the curve, one can determine the maximum amount of solute that can dissolve in a solvent at a given temperature. This information is crucial for predicting whether a solution will be saturated, unsaturated, or supersaturated at a specific temperature. By using solubility curves, chemists can make informed decisions about the conditions under which a substance will dissolve and how to manipulate these conditions to achieve desired outcomes in experiments or processes.
