Calculate the concentration of `CO_2` in a soft drink that is bottled with a partial pressure of `CO_2` of 4 atm over the liquid at `25^@C`. The Henry’s law constant for `CO_2` in water at `25^@C` is `3.1 xx 10^(–2)` mol/litre–atm.

Cacluate the amount of CO_(2) dissolved at 4 atm in 1 "dm"^(3) of water at 298 K . The Henry's law constant for CO_(2) at 298K is 1.67 k bar .

Henry's law constant of CO_2 in water at 298K is 5/3K bar. IF pressure of CO_2 is 0.01 bar, find its mole fraction.

If a mixture of CO and N_(2) in equal amount have total 1 atm pressure, then partial pressure of N_(2) in the mixture is

A soft drink was bottled with a partial pressure of CO_(2) of 3 bar over the liquid at room temperature . The partial pressure of CO_(2) over the solution approaches a value of 30 bar when 44 g of CO_(2) is dissolved in 1 kg of water at room temperature . The approximate pH of the soft drink is _______ xx 10^(-1) . (First dissocation constant of H_(2) CO_(3) = 4.0 xx 10^(-7) , log 2 = 0.3 , density of the soft drink = 1 g mL^(-1) )

The Henry's law constant for oxygen gas in water at 25^(@)C is 1.3xx10^(-3) M atm^(-1) . What is the partial pressure of O_(2) above a solution at 25^(@) C with an O_(2) concetration of 2.3xx10^(-4) M at equilibrium?