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4.2 grams NaNO3/60 grams water * 100 = 7% by mass -------------------
NaNO3 at 10C = About 80g KNO3 at 60C = About 100g NaCl at 50C = About 38g
Approximately 179 grams of sugar can dissolve in 50 cm3 of water at 75 degrees Celsius.
This solubility is 103,4 g KNO3/100 g H2O.
At 10°C, the solubility of strontium bromide (SrBr₂) in water is approximately 3.5 grams per 100 grams of water. This means that you can dissolve about 3.5 grams of strontium bromide in 100 grams of water at this temperature.
4.2 grams NaNO3/60 grams water * 100 = 7% by mass -------------------
The solubility of sodium nitrate NaNO3 in water at 90°C is approximately 180 grams per 100 grams of water.
The mass percent of a saturated solution of NaNO3 at 20°C can be calculated by dividing the mass of NaNO3 in the saturated solution (82 g) by the total mass of the solution (82 g NaNO3 + 100 g water) and then multiplying by 100%. This results in a mass percent of 82/182 * 100% ≈ 45.1%.
NaNO3 at 10C = About 80g KNO3 at 60C = About 100g NaCl at 50C = About 38g
The solubility of CuCl2 in water is 75,7 g/100 mL at 25 0C.
Approximately 36 grams of ammonium chloride will dissolve in 100 grams of water at 50°C.
Approximately 30.4 grams of potassium chloride would dissolve in 100 cm3 of water at room temperature.
LSD is typically dissolved in a solution with a concentration of around 100 micrograms per milliliter, so you could dissolve approximately 100 micrograms of LSD in 1 gram of water.
Approximately 179 grams of sugar can dissolve in 50 cm3 of water at 75 degrees Celsius.
Approximately 42 grams of KCl can dissolve in 100 grams of water at 80°C.
100 g water dissolve 45,8 g potassium chloride at 50 o 0C.
Radium sulfate (formula RaSO4) will dissolve at 0.00021 g/100g of water. To determine this: Get the solubility product constant Ksp of the values. This will indicate how much solid gets dissolve in the solution. Also consider the effect on solubility (for example, common ions).