Sodium sulfate is unusual in that its solubility becomes largely independent of temp at 49.7 °C( meaning instead of increasing solubility as temp rises it forms a plateau and actually decreases slightly) See the Web Links to the left of this answer for a direct link to a graph of the solubility vs. temperature, as described above.
As temperature increases, the solubility of sodium sulfate generally increases. This is because higher temperatures provide more energy for the sodium sulfate particles to break apart and dissolve in the solvent. Therefore, sodium sulfate is typically more soluble in hot water than in cold water.
Sodium sulfate is sparingly soluble in ethanol, with a solubility of approximately 0.07 g/100 mL at room temperature.
Sodium sulfate is highly soluble in water, with a solubility of about 49.7g per 100mL of water at 20°C.
Anhydrous sodium sulphate is Na2SO4
Anhydrous sodium sulfate is a desiccant, meaning it has a strong affinity for water. When added to a dichloromethane solution, the anhydrous sodium sulfate will absorb any water present, effectively removing it from the solution by forming a hydrated salt. The water-free dichloromethane can then be decanted or filtered off for further use.
As temperature increases, the solubility of sodium sulfate generally increases. This is because higher temperatures provide more energy for the sodium sulfate particles to break apart and dissolve in the solvent. Therefore, sodium sulfate is typically more soluble in hot water than in cold water.
Sodium sulfate is sparingly soluble in ethanol, with a solubility of approximately 0.07 g/100 mL at room temperature.
Sodium sulfate anhydrous can absorb water.
Sodium sulfate is highly soluble in water, with a solubility of about 49.7g per 100mL of water at 20°C.
Anhydrous sodium sulfate is considered as a drying agent. It is used in expirements to remove water from a solution or during an expirement. hope this helps.
Anhydrous sodium sulphate is Na2SO4
41,1 g of sodium sulfate (Na2SO4, anhydrous) contain 10,455.10e23 atoms.
Anhydrous sodium sulfate is a desiccant, meaning it has a strong affinity for water. When added to a dichloromethane solution, the anhydrous sodium sulfate will absorb any water present, effectively removing it from the solution by forming a hydrated salt. The water-free dichloromethane can then be decanted or filtered off for further use.
Some examples of solutes that do not dissolve when warmed include lead sulfate, barium sulfate, and strontium sulfate. These compounds have low solubility in water and do not readily dissolve with an increase in temperature.
One can determine if acetone is anhydrous by using a drying agent like magnesium sulfate or sodium sulfate. These drying agents will absorb any water present in the acetone, indicating if it is anhydrous or not.
At 20 oC the maximal solubility of sodium sulfate is 40,8 g/L.
To calculate the mass of anhydrous sodium sulfate needed, you first need to determine the total moles of Na+ required. In this case, 60 ml * 0.1 mmol/ml = 6 mmol of Na+. Anhydrous sodium sulfate has a molecular weight of 142.04 g/mol, so you will need 6 mmol * 142.04 g/mol = 852.24 mg or 0.85224 grams of anhydrous sodium sulfate to prepare the 60ml solution.