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If you have a standard solution of an acid, like hydrochloric or sulfuric, you can perform a titration in the presence of phenolphtalein or methyl orange and calculate the solution's normality or, you can weigh a sample of a strong solid acid ( orthoiperiodic acid or even oxalic acid), titrate the acid with the hydroxide solution, again in the presence of phenolphtalein or methyl orange and calculate the concentration of NaOH. If you want to have a solution with an exact concentration, let's say 1 molar, and the actual concentration is 1,33 molar, you simply calculate how much water you need to ad in a specific quantity of solution, to dilute it to exactly 1 molar.
Not necessarily. A solution that has a pH of 2 can have a low concentration of a strong acid or a relatively high concentration of a weak acid.
the H+ concentration and the OH- concentration
The weak acid becomes in unionized form
It simply refers to the concentration of uric acid in the blood.
If you have a standard solution of an acid, like hydrochloric or sulfuric, you can perform a titration in the presence of phenolphtalein or methyl orange and calculate the solution's normality or, you can weigh a sample of a strong solid acid ( orthoiperiodic acid or even oxalic acid), titrate the acid with the hydroxide solution, again in the presence of phenolphtalein or methyl orange and calculate the concentration of NaOH. If you want to have a solution with an exact concentration, let's say 1 molar, and the actual concentration is 1,33 molar, you simply calculate how much water you need to ad in a specific quantity of solution, to dilute it to exactly 1 molar.
The presence of an acid lowers the pH of the solution in water.
The presence of an acid reduces the pH.
The presence of an acid reduces the pH.
The presence of an acid reduces the pH.
The presence of an acid reduces the pH.
The presence of an acid reduces the pH.
The presence of an acid reduces the pH.
The presence of an acid reduces the pH.
Not necessarily or even usually. The term "one molar" refers to the concentration of the acid added and does not have anything to do with the concentration of ferrous ions.
Not necessarily. A solution that has a pH of 2 can have a low concentration of a strong acid or a relatively high concentration of a weak acid.
The presence of an acid reduces the pH.