The equivalent conductances of two strong electrolytes at infinite dilution in H2O (where ions move freely through a solution) at `25^(@)C`are given below:
`wedge_(CH_(3)COONa^(@) = 91.0Scm^(2)//equ iv` , `wedge_HCl^(@)= 426.25cm^(2)//equiv`
What additional information/quantity one needs to calculate `overset(o)(wedge)` of an aqueous solution of acetic acid?

The equivalent conductances of two strong electrolytes at infinite dilutution in H_2O ( where ion move freely through a solution ) at 25^(@)C are give below Lambda_(CH_3COONa)^(0) = 91.0 S cm^(2)//"equiv", Lambda_(HCl)^(0) = 426.2 S cm^(2)//"equiv" What additional information / quantity one needs to calculate Lambda^(0) of an aqueous solution of acetic acid ?

The equivalent conductances of two strong electrolytes at infinite dilution in H_(2)O (where ions move freely through a solution) at 25^(@)C are given below : Lambda_(CH_(3)COONa)^(@) = 91.0 S cm^(2)//"equi v" . Lambda_(HCl)^(@) = 426.2 S cm^(2)//"equiv" . What additional information//quantity one need to calculate Lambda^(@) of an aqueous solution of acetic acid ?

The equivalent conductance of two strong electrolytes at infinite dilution in H_(2)O (where ions move freely through a solution) at 25^(@)C are given below: A_(CH_(3)COONa)^(@)=91.0S cm^(2)//"equiv" A_(HCl)^(@)=426.25cm^(2)//"equiv" What additional information/quantity one needs to calculate A^(@) of an aqueous solution of acetic acid?

The equivalent conductances of two strong electrolytes at infinite dilution in H_2 O (where ions move freely through a solution) at 25^@C are given below: Lambda_(CH_3COOH)^@ = 91.0 S cm^@// equiv Lambda_(HCI)^@ =42.2 S cm^2// equiv What additional information // quantity one needs to calculate Lambda^@ of an aqueous solution of acetic actid ?

The equivalent conductances of two strong electrolytes at infinite dilutions in H_2O (where ions move freely through a solution ) at 25^@C are given below. ^^ ^@ CH_3 COONa = 91.05 cm^2 | gm equiv ^^ ^@ HCl = 426.25 cm^2 / of equiv . What additional information / quantity one needs to calculate Lambda^@ of an aqueous solution of acetic acid ?

Calculate, molar conductance of acetic acid using appropriate molar conductances of the electrolytes listed above at infinite dilution in H_(2)O at 25^(@)C :

The equivalent conductances of CH_(3)COONa, HCI "and" NaCI at infinit e dilution are 91,426 an 126 S cm^(2) eq^(-1) respectively at 25^(2)C The equivalent conductance of 1 M CH_(3)COOH solution is 19.55 S cm^(2) eq^(-1) The pH of solution is (pK_(a)=4.74)

Calculate K_(a) of acetic acid it its 0.05N solution has equivalent conductances of 7.36 mho cm^(2) at 25^(@)C (lambda_(CH_(3)COOH)^(oo) = 390.70)