The molar conductivities Lambda(NaOAc)^@...

The molar conductivities `Lambda_(NaOAc)^@` and `Lambda_(HCI)^@` at infinite dilution is watter at `25^@C` are `91.0` and `426.2 S cm^@ //`mol respectively. To calculate `Lambda_(HOAc,)^2` the additional value required is:

A

`Lambda_(HOAc)^(@)`,

B

`Lambda_(KCl)^(@)`

C

`Lambda_(NaOH)^(@)`

D

`Lambda_(NaCl)^(@)`

Text Solution

Verified by Experts

The correct Answer is:

D

Topper's Solved these Questions

ELECTRO CHEMISTRY
NARAYNA|Exercise NCERT BASED QUESTIONS|8 Videos
ELECTRO CHEMISTRY
NARAYNA|Exercise LEVEL-I(H.W)|32 Videos
ELECTRO CHEMISTRY
NARAYNA|Exercise LEVEL-III|57 Videos
15TH GROUP ELEMENTS
NARAYNA|Exercise EXERCISE - 4 (NCERT EXEMPLERS/HOTs)|27 Videos

Similar Questions

Explore conceptually related problems

The molar conductance of acetic acid at infinite dilution if Lambda^@ for CH_3 COONa,NACI and HCI are 91.0, 126.5 and 426.2 S cm^2 "mol"^(-1) respectively is :

If molar conductivities (Lambda_m^0) at infinite dilution of KBr, HBr and CH_3COOK are 151.6, 427.7 and 114.4 S cm^2 mol ^(-1) respectively then (Lambda_m^0) for CH_3COOH will be

Molar conductivities (Lambda_(m)^(@)) at infinite dilution of NaCl, HCl and CH_(3)COONa arc 126.4, 425.9 and 91.0 S cm^(2) mol^(-1) respectively. Lambda_(m)^(@) for CH_(3)COOH will be

The molar conductance of CH_(3)COOHNa HCI and NaCI at infinite dilutions are 91.0, 426.0 and 126.0 ohm^(-1) cm^(-1) respectively. Calculate the molar conductence of acetic acid at infinie dilution.

Molar conductiveiy [Lambda _m] at infinite dilution of Na CL, HCl and CH_3 COONa are 126.4, 425, 9 and 91 0 S cm^2 "mol"^(-1) respectively, Lambda_m for CH_3COOH will be ,

If the molar conductivities at infinited dilution of NaCl, HCl and CH_(3)COONa are 126.4, 426.1 and 91.0 ohm^(-1) cm^(2) mol^(-1) respectively. What will be the that of acetic acid?

NARAYNA- ELECTRO CHEMISTRY-AIEEE & JEE MAIN PREVIOUS

Aluminium oxide may be electrolysed at 1000^(@)C to furnish aluminium ...
Text Solution
|
The ionic mobility of alkali metal ions in aqueous solution is maximum...
Text Solution
|
The molar conductivities Lambda(NaOAc)^@ and Lambda(HCI)^@ at infinite...
Text Solution
|
Resistance of a conductvity cell filled with a solution of an electrol...
Text Solution
|
At 25^(@)C, {:(Ag+I^(-)rarr,AgI+e,,E^(@) =0.152V),(Agrarr,Ag.^(+)+e,,E...
Text Solution
|
The equivalent conductances of two strong electrolytes at infinite di...
Text Solution
|
The cell , Zn | Zn^(2+) (1M) || Cu^(2+) (1M) Cu (E("cell")^@ = 1. 10 V...
Text Solution
|
Given: E(Cr^(3+)//Cr)^(@) = -0.72V, E(Fe^(2+)//Fe)^(@)= -0.42V The p...
Text Solution
|
Oxidising power of chlorine in aqueous solution can be determined by t...
Text Solution
|
Given,{:(E(Fe^(3+) //Fe)^o + 3e Cr E^o =- 0.036 V),(E(Fe^(3+) //Fe)^o...
Text Solution
|
The Gibbs energy for the decomposition of Al(2)O(3) at 500^(@)C is as ...
Text Solution
|
The reduction potential of hydrogen half cell will be negative if :
Text Solution
|
The standard reduction potential for Zn^(2+)//Zn, Ni^(2+)//Ni and Fe^(...
Text Solution
|
Given E("Cr(2)O(7)^(2-)//Cr^(3+))^(@)=1.33V,E(MnO(4)^(-)//Mn^(2+))^(@)...
Text Solution
|
Four successive members of first row transition element are listed bel...
Text Solution
|
Resistance of 0.2 M solution of an electrolyte is 50 ohm. The specific...
Text Solution
|
The equivalent conductance of NaCl at concentration of C and at infini...
Text Solution
|
Given below are half-cell reaction: Mn^(2+)+2e^(-) rarr Mn,, E^(@) =...
Text Solution
|
Two faraday of electricity is passed through a solution of CuSO(4). Th...
Text Solution
|
Oxidation of succinate ion produces ethylene and carbon dioxide gases....
Text Solution
|