Why are strong acids generally used as standard solutions in acid-base titrations?

Strong acids are generally used as standard solution in acid-base titrations because:

Explain why phenolphthalein is used as an indicator in acid-base titration. ""^(**"**)

Conductance measurements and be used to detect the end point of acid-base titrations. Which of the following plots correctly represents the end point of the titration of strong acid and a strong base?

The rapid change of pH near the stoichiometric point of an acid-base titration is the basic of indicator detection. pH of the solution is related to the ratio of the concentration of conjugate acid (Hin) and base (In^(-)) forms of the indicator by the expression

Which of the following is/are true for an acid- base titration?

Which of the following are true for an acid- base titration?

What are acid -base indicators and how do they indicate the end point of an acid -base titration?

Discuss the various types of acid-base titrations using indicators.

Assertion : Weak acids have very strong conjugate bases while strong acids have weak conjugate bases. Reason : Conjugate acid - base pair differ only by one proton.

Enthalpy of neutralzation is defined as the enthalpy change when 1 mole of acid /base is completely neutralized by base // acid in dilute solution . For Strong acid and strong base neutralization net chemical change is H^(+) (aq)+OH^(-)(aq)to H_(2)O(l) Delta_(r)H^(@)=-55.84KJ//mol DeltaH_("ionization")^(@) of aqueous solution of strong acid and strong base is zero . when a dilute solution of weak acid or base is neutralized, the enthalpy of neutralization is somewhat less because of the absorption of heat in the ionzation of the because of the absorotion of heat in the ionization of the weak acid or base ,for weak acid /base DeltaH_("neutrlzation")^(@)=DeltaH_("ionization")^(@)+ Delta _(r)H^(@)(H^(+)+OH^(-)to H_(2)O) What is DeltaH^(@) for complate neutralization of strong diacidic base A(OH)_(2)by HNO_(3) ?