[" (a) State Kohilrause law of independent migration of will.Whill which law."],[" conductivity of accetie acid at imfinite dilution according to Keschiraved law."],[" Calculate "A_(m)" for accetie acid."],[" Civen that "Lambda_(m)^( theta)(MCl)=426Scm^(2)mol^(-1),Lambda_(m)^(@)(NaCl)=126Scm^(2)mol^(-1)mal" ."],[qquad Lambda_(m)^(0)(CH_(3)COONa)=91Sem^(2)mol^(-1)]

Calculate Lambda_(m)^(oo) for acetic acid, given, Lambda_(m)^(oo)(HCl)=426 Omega^(-1)cm^(2)mol^(-1),Lambda_(m)^(oo)(NaCl)=126Omega^(-1)cm^(2)mol^(-1) , Lambda_(m)^(oo)(CHCOONa)=91Omega^(-1)cm^(2)mol^(-1)

State Kohlrausch law of independent migration of ions. Write an expression for the molar conductivity of acetic acid at infinite dilution according to Kohlrausch law. {:((b),"Calculate",:,wedge^(@)m" for acetic acid."),(,"Given that",:,wedge^(@)m(HCl)=426 " S " "cm"^(2)mol^(-1)),(,,,wedge^(@) m(NaCl)=126 " S " cm^(2) mol^(-1)),(,,,wedge^(@) m(CH_(3)COONa)=91 " S " cm^(2)mol^(-1)):}

State Kohlrausch law of independent migration of ions. Write an expression for the molar conductivity of acetic acid at infinite dilution according to Kohlrausch law. {:((b),"Calculate",:,wedge^(@)m" for acetic acid."),(,"Given that",:,wedge^(@)m(HCl)=426 " S " "cm"^(2)mol^(-1)),(,,,wedge^(@) m(NaCl)=126 " S " cm^(2) mol^(-1)),(,,,wedge^(@) m(CH_(3)COONa)=91 " S " cm^(2)mol^(-1)):}

Caleulate Lambda_m^0 for acetic acid. Given that Lambda_m^0(HCl)=426 ohm^-1 ~cm^3 ~mol^-1 , Lambda_m^0(NaCl)= 126 ohm^-1 ~cm^2 ~mol^-1 and Lambda_m^0(CH_3 COONa)=91 ohm ^-1 ~cm^2 ~mol^-1

Calculate degree of dissociation of 0.02 M acetic acid at 298 K given that mho_(m)(CH_(3)COOH)=17.37 cm^(2) mol^(-1),lambda_(m)^(@)(H+)=345.8 S cm^(2) mol^(-1), lambda_(m)^(@)(CH_(3)COO^(-))=40.2 Scm^(2) mol^(-1)

Calculate degree of dissociation of 0.02 M acetic acid at 298 K given that mho_(m)(CH_(3)COOH)=17.37 cm^(2) mol^(-1),lambda_(m)^(@)(H+)=345.8 S cm^(2) mol^(-1), lambda_(m)^(@)(CH_(3)COO^(-))=40.2 Scm^(2) mol^(-1)

Calculate the degree of dissociation of acetic acid at 298 K , given that Lambda_(m) ( CH_(3) COOH) = 11.7 S cm^(2) "mol"^(-1) Lambda_(m)^(@) ( CH_(3)COO^(-)) = 40.9 S cm^(2) "mol"^(-1) Lambda_(m(H^(+)))^(@) = 349.1 S cm^(2) "mol"^(-1)

The equivalent conductances of sodium chloride, hydrochloric acid and sodium acetate at infinite dilution are 126.45, 426.16 and 91.0ohm^(-1) cm^(-1)"equiv"^(-1) , respectively, at 25^(@)C . Calculate the equivalent conducatance of acetic acid at infinite dilution. Lambda_(m)^(0)(HCl)="426.16 S cm"^(2)mol^(-1) Lambda_(m)^(0)(NaCl)="126.45 S cm"^(2)mol^(-1) Lambda_(m)^(0)(CH_(3)COONa)="91 S cm"^(2)mol^(-1)

Calculate Lambda^(@) for acetic acid, Given that, Lambda_((HCl))^(@) = 426 S cm^(2) "mol"^(_1) Lambda_((NaCl))^(@) = 126 S cm^(2) "mol"^(_1) Lambda_((CH_(3) COONa))^(@) = 91 S cm^(2) "mol"^(-1) Recall Kohlrausch's law to find the conductance of weak electrolyte.