When a solution of conductanes `1.342 mho m^(-1)` was placed in a conductivity cell with parallel electrodes the resistance was found to be `170.5` ohm. The area of the electrode is `1.86 xx 10^(-4)` sq meter. Calculate the distance between the two electrodes in meter.

When a solution having conductivity 1.342 xx 10^(-2)" ohm"^(-1) cm^(-1) was placed in a cell with parallel electrodes, the resistance was found to be 170.5 ohms. If the area of the electrodes is 1.86 sq. cm., find the cell constant and the distance apart of the electrodes.

The conductivity of pure water in a conductivity cell with electrodes of cross-sectional area 4cm^(2) placed at a distance 2cm apart is 8 xx 10^(-7) S cm^(-1) . Calculate. (a) The resistance of water. (b) The current that would flow through the cell under the applied potential difference of 1 volt.

The conductance of 0.0015 M aqueous solution of a weak monobasic acid was determined by using a conductivity cell consisting of platinized Pt electrodes. The distance between the electrodes is 120 cm with an area of cross-section of 1 cm^(2) . The conductance of this solution was found to be 5xx10^(-7) S . The pH of the solution is 4. Calculate the value of limiting molar conductivity.

A cell contains two hydrogen electrodes. The negative electrode is in contact with a solution of 10^(-6)M hydrogen ions. The EMF of the cell is 0.118V at 25^(@)C . Calculate the concentration of hydrogen ions at the positive electrode.

The two Pt electrodes fitted in a conductance cell are 1.5 cm apart while the cross - sectional area of each electrode is 0.75cm . What is the cell constant?

The two Pt electrodes fitted in a conductance cell are 1.5 cm apart while the cross - sectional area of each electrode is 0.75cm . What is the cell constant?

A cell contain two hydrogen electrodes. The negatove electrode is in contact with a solution of pH = 5.5 . The emf of the cell is 0.118 V at 25^(@)C . Calculate the pH of solution positive electrode. (assume pressure of H_(2) in the both electrondes = 1 bar )

What would be the equivalent conductivity of a cell in which 0.5 salt solution offers a resistance of 40 ohm whose electrodes are 2 cm apart and 5 cm^2 in area?

The molar conductivity of 0.04 M solution of MgCl_2 is 200 Scm^2mol^(-1) at 298 k. A cell with electrodes that are 2.0 cm^2 in surface area and 0.50cm apart is filled with MgCl_2 solution How much current will flow when the potential difference between the two electrodes is 5.0V?

(a). The resistance of a decinormal solution of an electrolyte in a conductivity cell was found to be 245 ohms. Calculate the equilvalet conductivity of the solution if the electrodes in the cell were 2 cm apart and each has an area of 3.5 sq. cm. (b). The conductivity of 0.001028M acetic acid is 4.95xx10^(-5)Scm^(-1) . Calculate its dissociation constant if ^^_(m)^(@) for acetic acid is 390.5Scm^(2_mol^(-1)