Want this question answered?
50 g of potassium chloride are dissolved in 100 g water at cca. 80 oC.
Silver chloride - AgClAg (107.89 grams) + Cl (35.45 grams) = 143.34 grams
The maximum number of grams of solute that can be dissolved in a given solvent is dependent on factors such as temperature, pressure, and the specific solute-solvent system. This maximum amount is known as the solubility limit of the solute in that particular solvent.
SrCl2 Strontium (Sr) = 87.62 grams/mol 2 Chlorine (Cl) = 70.9 grams/mol ----------------------------------------------------add Strontium chloride = 158.52 grams/mol ============================
266,86 g aluminium chloride are obtained.
As the temperature of the water increases, the amount of solute (in this case NH4Cl) that can be dissolved increases.
You get salt at the bottom of the pan!
This mass of ammonium chloride is 120,4 g.
36.4 Grams
50 g of potassium chloride are dissolved in 100 g water at cca. 80 oC.
Silver chloride - AgClAg (107.89 grams) + Cl (35.45 grams) = 143.34 grams
Lithium chloride is not transformed in calcium chloride.
The molar mass of anhydrous aluminum chloride is 133,34 grams.
68 g of KCl ( => 2 x 34 )can dissolve in 200 g of water
The maximum number of grams of solute that can be dissolved in a given solvent is dependent on factors such as temperature, pressure, and the specific solute-solvent system. This maximum amount is known as the solubility limit of the solute in that particular solvent.
It is not possible.The maximum solubility of sodium chloride at 60 0C is 370,4 g/L (or 37,04 g /100 mL).
The formula of aluminium chloride is AlCl3. The atomic weight of aluminium is 27 and that of chlorine is 35.5. That means 35.5*3 grams of chlorine will combine with 27 grams of aluminium. So 33 grams of chlorine will combine with 8.37 grams of aluminium. The addition of both makes it 41.37 grams. In this reaction, the whole chlorine will be utilized and only part of the aluminium.