The higher the pH, the greater the concentration of Hydroxide (OH-) ions. So, the solution with the pH of 9 is your answer.
Determine the concentration of hydroxide ions by looking at the molarity of the base in the solution. A higher molarity of the base will result in a greater concentration of hydroxide ions. Use stoichiometry to calculate the concentration of hydroxide ions based on the balanced chemical equation for the reaction.
Base and alkaline are terms used to describe solutions that have a higher concentration of hydroxide ions (OH-) compared to hydronium ions (H3O+). These solutions have a pH greater than 7 and are opposite to acidic solutions, which have a higher concentration of hydronium ions.
The strength of a basic solution is determined by its concentration of hydroxide ions (OH-) and its pH level. Basic solutions have a high OH- concentration and a pH above 7. They are capable of neutralizing acids and can be corrosive or caustic depending on the concentration.
If a solution is considered basic, then the hydroxide ion concentration is higher than the hydrogen ion concentration. This means that the pH of the solution is greater than 7. The presence of hydroxide ions contributes to the alkaline properties of the solution.
An aqueous solution that contains more hydroxide ions than hydronium ions is considered to be basic or alkaline. This imbalance in ion concentration leads to a pH greater than 7. Examples of such solutions include sodium hydroxide (NaOH) and potassium hydroxide (KOH) solutions.
Determine the concentration of hydroxide ions by looking at the molarity of the base in the solution. A higher molarity of the base will result in a greater concentration of hydroxide ions. Use stoichiometry to calculate the concentration of hydroxide ions based on the balanced chemical equation for the reaction.
Base and alkaline are terms used to describe solutions that have a higher concentration of hydroxide ions (OH-) compared to hydronium ions (H3O+). These solutions have a pH greater than 7 and are opposite to acidic solutions, which have a higher concentration of hydronium ions.
The strength of a basic solution is determined by its concentration of hydroxide ions (OH-) and its pH level. Basic solutions have a high OH- concentration and a pH above 7. They are capable of neutralizing acids and can be corrosive or caustic depending on the concentration.
< 7
If a solution is considered basic, then the hydroxide ion concentration is higher than the hydrogen ion concentration. This means that the pH of the solution is greater than 7. The presence of hydroxide ions contributes to the alkaline properties of the solution.
An aqueous solution that contains more hydroxide ions than hydronium ions is considered to be basic or alkaline. This imbalance in ion concentration leads to a pH greater than 7. Examples of such solutions include sodium hydroxide (NaOH) and potassium hydroxide (KOH) solutions.
A solution high in OH- ions is referred to as a "basic" or "alkaline" solution. The presence of a high concentration of hydroxide ions (OH-) indicates that the solution has a pH greater than 7. In such solutions, the acidity is neutralized, resulting in a higher concentration of hydroxide ions compared to hydrogen ions (H+).
its called hypertonic
its called hypertonic
a strongly basic solution
A solution with a Kb value much greater than 1 would be considered a strong base solution. This indicates that the base is more likely to fully dissociate in water, resulting in a high concentration of hydroxide ions and a higher pH. Examples include solutions of sodium hydroxide (NaOH) or potassium hydroxide (KOH).
When comparing two solutions, the solution with the greater concentration of solute is called hypertonic. This means that it has a higher solute concentration compared to the other solution.