A 4.0 molar aqueous solution of NaCl is prepared and 500mL of this solution is electrolysed. This leads to the evolution of chlorine gas at one of the electrodes (Atomic mass: Na= 23: Hg=200, 1 faraday= 96500 coulomb)
The total charge (in coulombs) required for complete electrolysis is

A 4.0 molar aqueous solution of NaCl is prepared and 500mL of this solution is electrolysed. This leads to the evolution of chlorine gas at one of the electrodes (Atomic mass: Na= 23: Hg=200, 1 faraday= 96500 coulomb) The total number of moles of chlorine gas evolved is

A 4.0 molar aqueous solution of NaCl is prepared and 500mL of this solution is electrolysed. This leads to the evolution of chlorine gas at one of the electrodes (Atomic mass: Na= 23: Hg=200, 1 faraday= 96500 coulomb) If the cathode is a Hg electrode, the maximum weight (in g) of Na-Hg amalgam formed from this solution is

calculate the mass of NaOH required to make 500mL of 0.5 M aqueous solution. (molecular mass of NaOH = 40).

Calculate the mass of NaOH required to make 500 ml of 0.5 M aqueous solution. (molecular mass of NaOH = 40)

Calculate the mass of NaOH required to make 500 mL of 0.5 molar aqueous solution (Molecular mass of NaOH=40)

How many grams of silver could be plated out on a shield by electrolysis of a solution containing Ag ions for a period of 4 hours at a current strength of 8.5 amperes? [I F= 96,500 C mol^-1 , molar mass of Ag=107.8 g]

Calculate the osmotic pressure exerted by a solution prepared by dissolving 1.5g of a polymer of molar mass 185000in 500mL of water at 37^@C (R = 0.0821 L atm K^(-1) mol^(-1)