6.7x10-10, 6.7 x 10-10, 6.7x10 -10, 6.7 x 10 -10
1.4 x10-11
1.4 x 10-11
1.4x10 -11
1.4 x 10 -11
6.3x10-10, 6.3 x 10-10, 6.3 x10 -10, 6.3 x 10 -10
2.5x10-9, 2.5 x 10-9, 2.5 x 10 -9, 2.5x10 -9
2.7 x 10-9
CO2 is soluble in water up to the point of saturation which is about 3,3 grams per liter water at 0°C and 1 gram per liter at 38°C (not linear!).
decrease in pressure
ungimat
The concentration of the solute in the solution at a given temperature, exprimed in g/100 mL.
Ag2CO3 silver carbonate is the most water insouluble of the three listed, the others dissolve in water "better" , meaning more grams of compound per liter of water , therefore, silver carbonate will from a precipitate "easier" or at much lower concentrations than the other compounds will., However all of these compounds can form precipitates in water the other two will require MUCH higher concentrations to do so.
The solubility is expressed in grams of solute dissolved in 1 liter of solvent, at a given temperature.
The solubility is expressed in grams of solute dissolved in 1 liter of solvent, at a given temperature.
CO2 is soluble in water up to the point of saturation which is about 3,3 grams per liter water at 0°C and 1 gram per liter at 38°C (not linear!).
.000014
Molecular weight (unit) of salt dissolved in liter (unit) volume of water.
it would be the solute
Temperature is not related to any of those quantities, so it can be any temperature.
These solutions contain 1 mol of the particular substance dissolved in a liter of water.
A normal solution is a solution in which 1 gram of solute is dissolved in 1 liter of water
the temperature would be 50 degrees
decrease in pressure
When we say that a solution has a given molarity, it tells you how much of a given substance is dissolved into the solution. A 1.0 molar solution has one mole of a substance dissolved into one liter of water.