Oxidation of succinate ion produces ethylene and carbon dioxide gases. On passing `0.2` Faraday electricty through an aqueous solution of potassium succimate, the total volume of gases (all both cathode and anode) liberated at STP (1 atm and 273 K) is

The volume of gases evolved at STP by passing 0.1A of current for 965g , through an aqueous solution of potassium acetate

The volume of gases evolved at STP by passing 0.2A of current for 965 s through an aqueous solution of sodium furmarate is

Find the volume of gases evolved by passing 0.1 A of current for 965s , through an aqueous solution of sodium succinate at 27^(@)C and 1 atm .

Find the volume of gases evolved by passing 0.9655 . A current for 1 hr through an aqueous solution of CH_(3)COONa at 25^(@)C and 1 atm .

When aqueous solution of sodium ethanoate is electrolysed, the volume of gases obtained at cathode at a pressure of 1.0 bar and 298 K temperature when 2.0 Faraday of electricity is passed is:

i. The volume of gases evolved at STP by passing 0.1 A of current for 965 sec through an aqeous solution of potassium acetate is: a. 22.4 ml , b. 11.2 ml c. 89.6 ml , d. 44.8 ml ii. The mass of gases eveolved in the above problem is: a. 0.06 gm , b. 0.6 gm c. 6.0 gm , d. 60 gm iii. The volume of gases evolved at STP by passing 0.2 A of current for 965 sec through an aqueous soultion of disodium fumerate is: a. 22.4 ml , b. 11.2 ml c. 89.6 ml , d. 44.8 ml

A current of 1.0A is passed for 96.5s trhough a 200mL solution of 0.05 M LiCl solution. Find a. The volume of gases produced at STP b. The pH of solution at the end of electrolysis