Yes; this is done in chemistry labs all the time!
You can prepare a dilute solution (which has a low molarity; a lower concentration of H3O+, hydronium ions) of a strong acid (a low molarity) by placing a small amount of the concentrated acid in a larger amount of water.
Yes, if its is undiluted or not very diluted it will be a concentrated substance.
Yes. The term "strong acid" refers to the degree of ionization in solution, not to the concentration of the acid itself.
Yes, it is possible and normal.
true
strong acids and bases dissociate completely; weak acids and bases dissociate only partially. In contrast, the term dilute and concentrated are used to indicate the consentration of a solution, which is the amount of acid or base dissolved in the solution. It is possible to have dilute solutions of strong acids and bases and concentrated solutions of weak acids and bases.
Not necessarily. Although saturation means that the solution cannot get concentrated anymore, it does not mean that the concentration is high, as there might be solutions that a saturated at low concentrations.
if one scientist reports concentrations measured in molality, another scientist elsewhere can exactly replicate the work. This is not possible with molarity. I chose the above answer on my quiz and it was actually incorrect. The correct answer should be - two solutions of the same molality have equivalent ratios of solute to water, but two solutions of the same molarity may not have equivalent ratios.
"Concentrated" if you could still dissolve more solute in the solvent, or "saturated" if this is not possible (because there is so much dissolved already).
True
There are many different concentrations of "concentrated sulphuric acid". It is possible to deduce the concentration of the sulphuric acid by titration.
strong acids and bases dissociate completely; weak acids and bases dissociate only partially. In contrast, the term dilute and concentrated are used to indicate the consentration of a solution, which is the amount of acid or base dissolved in the solution. It is possible to have dilute solutions of strong acids and bases and concentrated solutions of weak acids and bases.
Not necessarily. Although saturation means that the solution cannot get concentrated anymore, it does not mean that the concentration is high, as there might be solutions that a saturated at low concentrations.
Yes, though measurement is not easily done (pH-potentiometry) in concentrated alkali solution. The pH can be greater than 14 or lower than 0 in solutions with very high concentrations of [OH]- or [H]+ (> 1.0 M). And it isn't that important to know how much over 14 or under 0, is it?
When a solution has accepted as much solute as is possible at a given temperature, the solution is said to be saturated. Under certain conditions, saturated solutions can be concentrated to give supersaturated solutions. Supersaturated solutions are those which possess more of a solute than normally dissolves in a solvent at a given temperature.
if one scientist reports concentrations measured in molality, another scientist elsewhere can exactly replicate the work. This is not possible with molarity. I chose the above answer on my quiz and it was actually incorrect. The correct answer should be - two solutions of the same molality have equivalent ratios of solute to water, but two solutions of the same molarity may not have equivalent ratios.
possible solutions to a problem which you could choose from
ASAP is As Soon As Possible so I guess As Soon As Possible Solutions.
There are infinitely many possible solutions. The question needs to be more specific.There are infinitely many possible solutions. The question needs to be more specific.There are infinitely many possible solutions. The question needs to be more specific.There are infinitely many possible solutions. The question needs to be more specific.
no!
Yes, it is possible.
Cleaning sewage and using that as a water supply and harnessing underground water resevoirs are possible solutions.