Well,i guess the same volume as the base.
This temperature is not calculated.
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.
A base is neutralized adding an acid, not another volume of a base.
Use this to analyse the unkown and variables:Ca*Va = Cb*Vb in which:C = concentration (mol/L = mmol/mL)V = Volume (L or mL)subscripts: 'a' = acid, 'b' = baseWanna know Vb ? well find the other three variables to calculate: (Ca*Va)/Cb = Vb (with the same unit as used for Va)
To determine the volume of calcium hydroxide needed to neutralize the nitric acid, you can use the equation n1v1=n2v2, where n is the number of moles and v is the volume. As the concentration and volume are given for both the acid and base, the volumes of both solutions needed to neutralize each other will be equal. Therefore, the volume of 0.0550 M calcium hydroxide required will also be 35.00 mL.
In an acid-base titration, a known volume of acid or base of unknown concentration is titrated with a standardized solution of base or acid of known concentration, respectively. The setup involves adding an indicator to the solution being titrated, which changes color at the endpoint when the reaction is complete. The volume of the standardized solution required to neutralize the unknown solution is used to calculate its concentration.
No, it is not necessary to know the exact concentration of oxalic acid if you are titrating it with a base. You can determine the concentration of the base by measuring the volume of the base solution required to neutralize the acid solution.
A base.
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.
Strong base is added to neutralize the strong acid (H2SO4).
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.