[" conductivity cell filled with "0.01M" K.Cl gives at "],[25^(@)C" the resistance of "604" ohms.The conductivity "],[" of "KCl" at "25^(@)C" is "0.00141Omega^(-1)cm^(-1)" .The same cell "],[" filed with "0.001M" AgNO "_(3)" gives a resistance of "],[6529" ohms.Calculate the molar conductivity of "],[0.001MAgNO_(3)" solution at "25^(@)C" ."]

A conductivity cell filled with 0.01M KCl gives at 25^@C gives the resistance of 604 ohms. The conductivity of KCl at 25^@C is 0.00141Omega^(-1) 1cm^(-1) . The same cell filled with 0.001M AgNO_3 gives a resistance of 6529 ohms. Calculate the molar conductivity of 0.001M AgNO_3 [Conductivity of 0.01M KCl at 25^@C is 0.00141 Omega^(-1) cm^(-1) ]

A conductivity cell find with 0.1 M KCI gives at 25^(@) C a resistance of 85.5 other . The conductivity of 0.1 M KCI at 25^(@) C is 0.01286 "ohm"^(-1) cm^(-1) . The same cell filled with 0.005 M HCI gives a resistance of 529 ohms. What is the molar conductivity of HCI solution at 25^(@) C ?

A conductivity cell filled with 0.02 M AgNO_(3) gives at 25^(@) C resistance of 947 ohms. If the cell constant is 2.3 cm^(-1) . What is the molar conductivity of 0.02M AgNO_(2)" at " 25^(@)C

The resistacnce of a conductivity cell filled with 0.01 N KCI at 25^(@)C was found to be 500 Omega The specific conductance of 0.01 N KCI at 25^(@)C is 1.41xx10^(-3) Omega^(-) cm^(-1) The resistance of same cell filled with 0.3 N ZnSO_(4) at 25^(@)C was found to be 69 Omega Calculate the cell constant equivalent and molar conductivities of ZnSO_(4) solution

A conductivity cell dipped in 0.01 M AgNO_3 solution at 25^@C gives a resistance of 1442 ohms. If the molar conductivity of 0.01M AgNO_3 solution is 124.8 Omega^(-1) cm^2 mol^(-1) , what is the cell constant?

A conductivity cell has a cell constant of "0.5 cm"^(-1) . This cell when filled with 0.01 M NaCl solution has a resistance of "384 ohm at "25^(@)C . Calculate the equivalent conductance of the given solution.