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Since both the acid and the base have equivalent weights equal to their formula weights, 2 moles of KOH are needed to neutralize 2 moles of nitric acid.
A base.
Yes, bases neutralize acids by reacting with them to form water and a salt. The reaction between an acid and a base is known as a neutralization reaction. The amount of base needed to neutralize a given amount of acid is determined by their respective concentrations and the specific properties of the substances involved.
If the base is of the equivalent strength of the acid, yes.
To effectively neutralize an acid, you can add a base to it. The base will react with the acid to form water and a salt, which will help balance the pH level. It is important to use the correct amount of base to completely neutralize the acid.
The number of moles of acid and the base should be equal to neutralize. (So the number of moles of base is needed to answer this correctly)
add an acid
Yes it can.
An acid and a base. ;)
The hypothesis of an acid-base titration is that the volume of the acid solution needed to neutralize a base solution is stoichiometrically equivalent to the volume of the base solution required to neutralize the acid. This forms the basis for determining the unknown concentration of an acid or base by titration.
To neutralize an acid, you can add a base to it. The base will react with the acid to form water and a salt, which will decrease the acidity of the solution. It's important to use the correct amount of base to completely neutralize the acid.
To determine the amount of acid needed to neutralize the base, we can use the formula M1V1 = M2V2, where M1 is the concentration of the acid, V1 is the volume of the acid, M2 is the concentration of the base, and V2 is the volume of the base. Plugging in the values, we get (0.45)(V1) = (1.00)(25.0). Solving for V1, we find that V1 = 55.6 ml of 0.45M HCl is needed to neutralize 25.0 ml of 1.00M KOH.