The `EMF` of concentration cell consisting of two zinc electrodes, one dipping into `M//4` solution of `ZnSO_(4)` and the other into `M//16` solution of the same salt at `25^(@)C` is

One half-cell in a voltaic cell is constructed from a silver wire dipped in silver nitrate solution of unknown concentration . Its other half-cell consists of a zinc electrode dipping in 1.0 M solution of Zn(NO_(3))_(2) . A voltage of 1.48 V is measured for this cell . Use this information to calculate the concentration of silver nitrate solution used. (E_(Zn^(2+)|Zn)^(@) = -0.76V , E_(Ag^(+)|Ag)^(@) = + 0.80V ).

When a rod of copper is immersed in a solution of ZnSO_(4) zinc gets precipitated.

If hydrogen electrodes dipped in two solutions of pH=3 and pH=6 are connected by a salt bridge, the EMF_(cell) is

What will occur if a block of copper metal is dropped into a beaker containing a solution of 1M ZnSO_(4) ?

The H ion concentration of a solution is 4.75 xx 10^(-5) M. Then the OH ion concentration of the same solution is

The potential of a hydrogen electrode in a solution with pOH=4 at 25^(@)C is

A silver electrode dipping in AgNO_(3) solution (0.1M) is combined salt bridge with a hydrogen electrode dipping in a solution of pH=3(at 25^(@)C) . If the standard reduction potential of the silver electrode is 0.799V , what is the EMF of the cell ?

A huydrgen electrode is dipped is a solution of pH = 3.0 at 25^@C The potential fo the cell will be .

A huydrgen electrode is dipped is a solution of pH = 3.0 at 25^@C The potential fo the cell will be .

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.