Thats a silly question, it cant change if you dilute it, if you dilute it it should stay to an easy pH of 7 or it could change to a weak acid/base. Its not that hard.
The solution must be diluted 1000 times to get from a pH of 3 to a pH of 6.
When an acid solution is diluted with water, the pH will increase. This is because dilution reduces the concentration of the acid, resulting in a lower concentration of hydrogen ions in the solution, which in turn raises the pH.
can you be more specific? "the" acid? pH of buffered solutions generally will not change upon dilution, following the henderson-hasselbach. however, pH of strong acids will change, following the standard equation: pH = -log[H+] yerp
The pH of basic solutions will drop (become less basic) as the solution is diluted. However, if the solution contains a buffer, the pH will remain nearly constant upon dilution.
When a strong acid is diluted, the concentration of hydronium ions (H3O+) decreases. Since pH is a measure of the concentration of hydronium ions in a solution, the pH increases as the solution becomes more dilute. This is because the pH scale is logarithmic, meaning that a decrease in concentration results in a greater increase in pH.
The solution must be diluted 1000 times to get from a pH of 3 to a pH of 6.
When an acid solution is diluted with water, the pH will increase. This is because dilution reduces the concentration of the acid, resulting in a lower concentration of hydrogen ions in the solution, which in turn raises the pH.
can you be more specific? "the" acid? pH of buffered solutions generally will not change upon dilution, following the henderson-hasselbach. however, pH of strong acids will change, following the standard equation: pH = -log[H+] yerp
When diluted 10 times pH is raised by 1 unit in a acid.So you have to dilute 1000 times.
This depends on what kind of acid is concerned:for strong acid pH will be increased by (-log(8.0) = ) 0.90, but with a weak acid this will be only 0.46 (halved value)
When sodium hydroxide is diluted with water, the pH of the resulting solution increases. This is because sodium hydroxide is a strong base that dissociates in water to form hydroxide ions, which are alkaline and increase the pH level of the solution.
The pH of basic solutions will drop (become less basic) as the solution is diluted. However, if the solution contains a buffer, the pH will remain nearly constant upon dilution.
When a strong acid is diluted, the concentration of hydronium ions (H3O+) decreases. Since pH is a measure of the concentration of hydronium ions in a solution, the pH increases as the solution becomes more dilute. This is because the pH scale is logarithmic, meaning that a decrease in concentration results in a greater increase in pH.
pH is actually a measure of hydrogen ion concentration, similar to how molarity is a measure of the concentration of other solutions. The pH of the acid will become more neutral, in this case higher if it's being diluted with water.
Diluting a 0.01N HCl solution ten times would result in a 0.001N HCl solution. Since HCl is a strong acid that fully dissociates in water, the pH of a 0.001N HCl solution would be around 3 (pH = -log[H+]).
Acetic acid is added to the solution, but the pH of the solution does not change. Sodium hydroxide, a base, is added to the solution, but the pH of the solution does not change.
The PH paper soaks up the solution & tests the liquid, the pH paper will then change colour to show what the solution contains. Although if the paper stays the same colour it means the solution is nutral & safe.