Electrolysis of dilute aqueous NaCl solution was carried out by passing 10 mA current. The time required to liberate 0.01 mole of `H_2` gas at cathode is `(1F = 96500 C "mol"^(-1)`

Electrolysis of dilute aqueous sodium chloride solution was carried out by passing 10 milliampere current. The time required to liberate 0.01 mol of H_2 gas at the cathode is (1 Faraday = 96500 C mol^(-1) ).

The number of atoms in 0.1 mol of a triatomic gas is : (N_A = 6.02 xx 10^23 "mol"^(-1) )

The volume of 0.1 M H_2SO_4 required to neutralise 50 ml of 0.2 M NaOH solution is

If sodium sulphate is considered to be completely dissociated into cations and anions in aqueous solution, the change in freezing point of water (Delta T_(f)) , when 0.01 mol of sodium sulphate is dissolved in 1 kg of water, is ( K_(f)=1.86 "K kg mol"^(-1) ) :

When cells of skeletal vacuoles of a frog were placed in a series of NaCl solutions of different concentration solution at 25^(@)C , it was observed microscopically that they remained unchaged in 0.7% solution, shrank in a more concentrated and swelled in more dilute solution. Water freezes from the 0.7% salt solutions at -406^(@)C . What is the osmotic pressure of the cell cytoplasm at 25^(@)C . (K=_(f)=1.86 kg "mol"^(-1) K)

(a) Explain why electrolysis of aqueous solution of NaCl gives H_2 at cathode and Cl_2 at anode. Write overall reaction. (b) The resistancee of a conductivity cell containing 0.000M KCl solution at 298K is 1500 Omega . Calculate the cell constant if conductivity of 0.001M KCl solution at 298K is 0.146 times 10^-3 S cm^-1 .