`O_2` is bubbled through water at 293K, assuming that `O_2` exerts a partial pressure of 0.98 bar, the solubility of `O_2` in gm.`L^(-1)` is (Henry's law constant = 34 k bar)

Partial pressure of O_2 in alveoli is

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 CO_(2) gas having a partial pressure of 1.67 bar is bubbled through 1 L water at 298 K the amount of CO_(2) dissolved in water in g L^(-1) is approximately. (Henry's law constant of CO_(2) is 1.67 K bar at 298 K )

Henry's law constant for nitrogen at 20^@C is 76.48 k bar. Assuming the partial pressure as 0.987 bar, calculate mass of nitrogen dissovled in one litre water at 20^@C .

Calculate the partial pressures of O_2 and H_2 in a mixture of 3 moles of O_2 and 1 mole of H_2 at S.T.P.

The quantity of CO_2 in 500ml of soda water when packed under 2.5 atm CO_2 pressure at 298 k is....... gm (Henry's law constant 1.67 xx 10^8 pa at 298K)

The volume occupied by 8.8 gm of CO_2 at 31.1^@C and 1 bar pressure (R = 0.083 "bar. It K"^(-1)mol^(-1)) is

Correct one of the following regarding partial pressure (m min Hg) of O_2 and CO_2 in systemic veins respectively is