The emf of the following Damoell cell at 298 K is `E_1 Zn|ZnSO_4(0.01 M) || Cu SO_4(1.0 M)|Cu`.
When concentration of `ZnSO_4` is 1.0 and that of `CuSO_4` is 0.01 M, the emf is changed to `E_2`. What is the relationship between `E_1` and `E_2`?

Calculate the emf of the cell having the cell reaction 2Ag^(+)+ZnhArr 2Ag+Zn^(2+) and E_("cell")^(@)=1.56V" at "25^(@)C when concentration of Zn^(2+)=0.1M and Ag^(+)=10M in the solution.

When 0.004 M Na_(2)SO_(4) is an isotonic acid with 0.01 M glucose, the degree of dissociation of Na_(2)SO_(4) is

Calculate the pH of 0.1 M of H_(2)SO_(4) (concentration of hydrogen = 0.1xx2=0.2 ).

The reaction : X rarr Product follows first order kinetics . In 40 minutes the concentration of X changes from 0.1 to 0.025 M. Then the rate of reaction when concentration of X is 0.01 M is

The relationship between free energy change and e.m.f. of a cell is

A Zn rod weighing 1.0g is taken in 100mL of 1M CuSO_(4) solution . After some time, [Cu^(2+)] in solution =0.9M( atomic weight of Zn=65.5g) . Which of the following statements is // are correct ? a. 0.655g of Zn was lost during the reaction. b. 0.327 g of Zn was lost during the reaction . c. There is no change in the molarity of SO_(4)^(2-) ion. d. There is a change in the molarity of SO_(4)^(2-) ion.

For a first order reaction (A) rarr products the concentration of A changes from 0.1 M to 0.025 M in 40 minutes . The rate of reaction when the concentration of A is 0.01 M is :

Calculate the potential of the following cell at 298 K Zn//Zn^(2+)(a=0.1)//Cu^(2+)(a=0.01)//Cu E_(Zn^(2+)//Zn)^(@)=-0.762V E_(Cu^(2+)//Cu)^(@)=+0.337V Compare the free energy change for this cell with the free enegy of the cell in the standard state.