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The molar condutivity of 0.02 M HCI solu...

The molar condutivity of 0.02 M HCI solution is `407.2Omega cm^2mol^(-1) at 25^@C`. Calculate its conductivity.

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CHETANA PUBLICATION-Electrochemistry-EXERCISE
  1. The distance between the electrodes of a conductivity cell is 0.98 cm ...

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  2. If the specific conductivity of 0.04 M electrolytic solution is 0.0649...

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  3. The molar condutivity of 0.02 M HCI solution is 407.2Omega cm^2mol^(-1...

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  4. A conductivity cell dipped in 0.0005 M NaCl gives at 25^@C resistance ...

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  5. A conductivity cell dipped in 0.01 M AgNO3 solution at 25^@C gives a r...

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  6. Resistance of a conductivity cell filled with 0.1 M KC1 solution is 10...

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  7. Calculate the amount of electricity required to liberate 112 mL of hyd...

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  8. How much time will be required to liberate 3 xx 10^(-2) kg of iodine f...

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  9. Consider the following redox reaction Mg((S)) +Sn((aq))^(2+) rarr Mg((...

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  10. Consider the following redox reaction Mg((s))+Sn(aq)^(2+) rarr Mg^2+ S...

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  11. Calculate E(cell)^@, DeltaG^@ and equilibrium constant for the reactio...

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  12. Calculate the standard cell potentials of galvanic cell in which the f...

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  13. Calculate equilibrium constant for the reaction,Ni((s)) + 2Ag((aq))^(2...

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  14. Set up the cell consisting of H((aq))^+ | H(2(g)) and Pb(aq)^(2+)| Pb(...

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  15. Two solutions have the ratio of their concentrations 0.4 and ratio of ...

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  16. On diluting the solution of an electrolyte

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  17. 1 S m^2 mol^(-1) is equal to

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  18. The standard potential of the cell in which the following reaction occ...

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  19. For the cell, Pb(s) |Pb^(2o+)(1M)||Ag^(o+)(1M) |Ag (s), if concentrato...

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  20. The strongest oxidising and reducing agents respectively are

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