Statement : Milli-equivalent of a metla discharged at cathode during electrolysis `= (i . T)/(96.5)`
Explanation : This is Faraday's I law of electrolysis.

In a 500mL of 0.5M CuSO_(4) solution, during electrolysis 1.5xx10^(23) electron were passed using copper electrodes. Assume the volume of solution remains unchanged during electrolysis. Which of the following statements is // are correect? a. At the end of electrolysis, the concentration of the solution is 0.5M . b. 7.9 g of Cu is deposited on the cathode. c. 4 g of Cu is dissolved from the anode. d. 7.9 g of Cu ions are discharged.

Electrolusis involves electronation and de-electronation at the redpective electrodes. Anode of electrolytic cell is the electrode at which de-electronation takes place whereas at cathode electronation is noticed. If two or more ions of same charge are to be electronated or de-electronated, the ion having lesser discharge potential is dischargeed. Discharge potential of an ion refers for E_(OP)^(@) or E_(RP)^(@) as the case may be. The products formed at either electrode is given in terms of Faraday's laws of electrolysis i.e., w = (Eit)/(96500) A. During electrolysis of CH_(3)COONa_((aq.)) the mole ratio of gases formed at cathode and anode is :

Electrolusis involves electronation and de-electronation at the redpective electrodes. Anode of electrolytic cell is the electrode at which de-electronation takes place whereas at cathode electronation is noticed. If two or more ions of same charge are to be electronated or de-electronated, the ion having lesser discharge potential is dischargeed. Discharge potential of an ion refers for E_(OP)^(@) or E_(RP)^(@) as the case may be. The products formed at either electrode is given in terms of Faraday's laws of electrolysis i.e., w = (Eit)/(96500) B. During electrolysis of HCOONNa_((aq.)) , the gas liberated at andoe and cathode are respectively:

Electrolusis involves electronation and de-electronation at the redpective electrodes. Anode of electrolytic cell is the electrode at which de-electronation takes place whereas at cathode electronation is noticed. If two or more ions of same charge are to be electronated or de-electronated, the ion having lesser discharge potential is dischargeed. Discharge potential of an ion refers for E_(OP)^(@) or E_(RP)^(@) as the case may be. The products formed at either electrode is given in terms of Faraday's laws of electrolysis i.e., w = (Eit)/(96500) During electrolysis of CuSO_(4(aq.)) , the pH of solution becomes :

Statement : The cathode of electrolytic cell during electrolysis of NaCl_((aq.)) on additon of little litmus shows a blue colour. Explanation : At cathode : 2H^(+) + 2e rarr H_(2) . The reaction at cathode give rise to an increase in pH ranging in alkaline medium and litmus shows blue colour.

Electrolusis involves electronation and de-electronation at the redpective electrodes. Anode of electrolytic cell is the electrode at which de-electronation takes place whereas at cathode electronation is noticed. If two or more ions of same charge are to be electronated or de-electronated, the ion having lesser discharge potential is dischargeed. Discharge potential of an ion refers for E_(OP)^(@) or E_(RP)^(@) as the case may be. The products formed at either electrode is given in terms of Faraday's laws of electrolysis i.e., w = (Eit)/(96500) F. The volume of octane required to be used for its combustion by the oxygen liberated during electrolysis of an NaNO_(3(aq.)) by passing 9.65 ampere current for 1 hr. is :