potassium nitrate solubility at room temperature 25 degree celsius is about 383 g /L.
if we want per 100 ml then .... 383 g / 1000ml ....we know that
1 L=1000ml
now for per 100 ml it becomes
38.3g/100ml
now we can see that KNO3 solubility in 100 ml solution is 38.3 g.....so we can say that
100 ml solution of KNO3 can not hold more than 37 g or 38.3 g of KNO3 in dissolved state.
It can be separated by boiling off the water or crystallizing the KNO3 from solution
1.0 molal
kno3
The increase of solvent temperature can directly correspond to solubility. For example increasing water temperature can increase its holding of solvated potassium nitrate (KNO3).
The chemical formula KNO3 is for potassium nitrate.
Why 100 ml solution of KOH3 can not hold more than 37gm of KNO3 in dissolved state
Read a text book
It can be separated by boiling off the water or crystallizing the KNO3 from solution
1.0 molal
Get moles by; Molarity = moles of solute/Liters of solution 0.50 M KNO3 = moles KNO3/2.0 L = 1.0 mole KNO3 Now find grams of 1.0 mole KNO3 1.0 mole KNO3 (101.11 grams/1 mole KNO3) = 101.11 grams KNO3 needed call it 100 grams
kno3
Divide 175 by 750 and multiply by 1000 to get g/l. This gives you 233.3333g/litre. The molecular weight for KNO3 is 101.1g/mol. 233.333/101.1 is 2.31 molar.
Potassium nitrate is soluble in water, as it is an ionic solid. When dissolved in water, potassium nitrate will form an aqueous solution of potassium and nitrate ions.
help me on this quisdtoin
It doesn't
As the solution is cooled, the solubility of the solution decreases and a precipitate will form.
The dissolution is an endothermic process.