The molar conductivity of 0.025 M methan...

The molar conductivity of 0.025 M methanoic acid (HCOOH) is `46.15" S "cm^(2)mol^(-1)`. Calculate its degree of dissociation and dissociation constant. Given `lambda_((H^(+)))^(@)=349.6" S "cm^(2)mol^(-1)` and `lambda_((HCOO^(-)))^(@)=54.6" S " cm^(2)mol^(-1)`.

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The molar conductivity of 0.025 mol L^(-1) methanoic acid is 46.1 S cm^(2) "mol^(-1) . Calculate its degree of dissociation and dissociation constant. Given, lambda^(@) ( H^(+)) = 349.6S cm^(2) "mol"^(-1) and lambda^(@) ( HCOO^(-)) = 54.6 S cm^(2) "mol"^(-1)

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The molar conductivity of 0.025mol L^(-1) methanoic acid is 46.1 S cm^(2)mol ^(-1). Calculate its degree of dissociation and dissociation constant. Given, lamda^(0)(H^(+))=349.6S cm^(2) mol ^(-1) and lamda^(0)(HCOO^(-))=54.6S cm^(2)mol^(-1)

The molar conductivity of 0.025 mol L^(-1) methanoic acid (HCOOH) is 46.1 Scm^2 mol^(-1) . Calculate its degree of dissociation and dissociation constant. Given lambda^@ (H^+)=349.6 S cm^2 mol^-1 and lambda (HCOO^-)= 54.6 S cm^2 mol^-1

The molar conductivity of 0.25 mol L^(-1) methanoic acid is 46.1 S cm^(2) mol^(-1) . Calculate the degree of dissociation constant. Given : lambda_((H^(o+)))^(@)=349.6S cm^(2)mol^(-1) and lambda_((CHM_(3)COO^(c-)))^(@)=54.6Scm^(2)mol^(-1)

The molar conductivity of 0.025 M methanoic acid (HCOOH) is `46.15" S "cm^(2)mol^(-1)`. Calculate its degree of dissociation and dissociation constant. Given `lambda_((H^(+)))^(@)=349.6" S "cm^(2)mol^(-1)` and `lambda_((HCOO^(-)))^(@)=54.6" S " cm^(2)mol^(-1)`.

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