Relatice between the volume of gas (2) that dissolves in a fixed volume of solvent (1) and the partial presure of in-totalmoles, K, and Ky are Henry's constanta () TIK (b) RTX,P: (c) RTM (d) None of these

Relation between the volume of gas (2) that dissolves in a fixed volumeof solvent (1) and the partial pressure of gas (2) is ( n_(t) = total moles, K_(1) and K_(2) are Henry's constants)

If O_(2) gas is bubbled through water at 293 K, how many millimoles of O_(2) gas would dissolve in 1 litre of water? Assume that the partial pressure of O_(2) is 0.987 bar. Given that Henry's law constant for O_(2) at 293K is 34.86 kbar.

If N_(2) gas is bubbled through water at 293 K, how many millimoles of N_(2) gas would dissolve in 1 litre of water ? Assume that N_(2) exerts a partial pressure of 0.987 bar. Given that Henry's law constant for N_(2) at 293 K is 76.48 k bar.

If N_(2) gas is bubbled through water at 293 K , how many millimoles of N_(2) gas would dissolve in 1 L of water. Assume that N_(2) exerts a partial pressure of 0.987 bar. Given that Henry law constant for N_(2) at 293 K is 76.48 kbar.

If N_(2) gas is bubbled through water at 293 K , how many millimoles of N_(2) gas would dissolve in 1 L of water. Assume that N_(2) exerts a partial pressure of 0.987 bar. Given that Henry law constant for N_(2) at 293 K is 76.48 kbar.

If N_(2) gas is bubbled through water at 293 K , how many millimoles of N_(2) gas would dissolve in 1 L of water. Assume that N_(2) exerts a partial pressure of 0.987 bar. Given that Henry law constant for N_(2) at 293 K is 76.48 kbar.

If N_(2) gas is bubbled through water at 293 K , how many millimoles of N_(2) gas would dissolve in 1 L of water. Assume that N_(2) exerts a partial pressure of 0.987 bar. Given that Henry law constant for N_(2) at 293 K is 76.48 kbar.