To 1 M solution of `AgNO_(3), 0.75 F` quantity of current is passed. What is the concentration of the electrolyte, `AgNO_(3)` remaining in the solution ?

0.5 F of electric current was passed though 5 molar solutions of AgNO_(3), CuSO_(4) and AlCl_(3) connected in series. Find out the concentration of each of the electrolyte after the electrolysis ?

100mL of 1M solution of CuBr_(2) was electrolyzed with a current of 0.965 ampere hour. What is the normality of the remaining CuBr_(2) solution ? a. 1.64" "b.3.28" "c.0.82" "d.4.92

3.5 litre of 0.01 M NaCl is mixed with 1.5 litre of 0.05 M NaCl . What is the concentration of the final solution?

A strip of nickel metal is placed in a 1molar solution of Ni(NO_3)_2 and a strip of silver metal is placed in a one molar solution of AgNO_3 . An electrochemical cell is created when the two solution are connected by a salt bridge and the two strips are connected by wires to a voltmeter. (a) Write the balanced equation for the overall reaction occuring in the cell and calculate the cell potential. (b) Calculate the cell potential, E at 25^@C for the cell, if the initial concentration of Ni(NO_3)_2 is 0.100 molar and the initial concentration of AgNO_3 is 1.00 molar. [E_(Ni^(2+)//Ni)^@=-0.25V, E_(Ag^+//Ag)^@=0.80 VJ] log10^-1=-1

Same amount of electric current is passed through solutions of AgNO_(3) and HCl. If 1.08g of silver is obtained in the first case, the amount of hydrogen liberated at S.T.P. in the second case is

What is the effect of change in concentration of an electrolyte solution on conductivity and molar conductivity.

A current strength of 1.0 A is passed for 96.5s through 200mL of a solution of 0.05 M KCl . Find a. The amoudn of gases produced b. The concentration of final solution w.r.t. overset(c-)(O)H ions c. pH of the solution.

To one molar solution of a trivalent metal salt, electrolysis was carried out and 0.667 M was the concentration remaining after electrolysis. Calculate the quantity of electricity passed.