the new concentration is 12 / 250, *75 which is 3.6 (no rounding needed), and you NEED to include units, which are moles per litre
Dilution of hydrochloric acid decreases its concentration, which can affect its properties and reactivity. When hydrochloric acid is diluted, it becomes less corrosive and less reactive compared to concentrated hydrochloric acid. This means that diluted hydrochloric acid may not be as effective in certain chemical reactions or in dissolving certain materials.
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.
Diluted hydrochloric acid is acidic in nature. It will have a pH less than 7, which indicates acidity.
The concentration of the diluted solution will be 15(300/1000) = 4.5 %, if the percent is expressed on a weight/volume basis.
To determine the concentration of a diluted solution, one can use the formula C1V1 C2V2, where C1 is the initial concentration, V1 is the initial volume, C2 is the final concentration, and V2 is the final volume. By plugging in the known values and solving for the unknown concentration, one can determine the concentration of the diluted solution.
Dilution of hydrochloric acid decreases its concentration, which can affect its properties and reactivity. When hydrochloric acid is diluted, it becomes less corrosive and less reactive compared to concentrated hydrochloric acid. This means that diluted hydrochloric acid may not be as effective in certain chemical reactions or in dissolving certain materials.
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.
Diluted hydrochloric acid is acidic in nature. It will have a pH less than 7, which indicates acidity.
When more solvent is added to a solution, the concentration of the solute decreases. This is because the total volume of the solution increases while the amount of solute remains constant, resulting in a more diluted solution.
The concentration of the diluted solution will be 15(300/1000) = 4.5 %, if the percent is expressed on a weight/volume basis.
To determine the concentration of a diluted solution, one can use the formula C1V1 C2V2, where C1 is the initial concentration, V1 is the initial volume, C2 is the final concentration, and V2 is the final volume. By plugging in the known values and solving for the unknown concentration, one can determine the concentration of the diluted solution.
yes. it contains very diluted hydrochloric acid.
To find the concentration of a diluted solution, you can use the formula: C1V1 C2V2. This formula relates the initial concentration (C1) and volume (V1) of the original solution to the final concentration (C2) and volume (V2) of the diluted solution. Simply plug in the known values and solve for the unknown concentration.
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.
One use, in its diluted form, is a cleaner/sterilizer.
As a solution is diluted, the concentration of solute decreases. This is because the amount of solute remains the same while the volume of the solution increases, leading to a lower concentration of the solute in the solution.
This depends on the desired concentration.