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 .

Weight of CO_(2) in a 10 L cylinder at 5 atm and 27 ^(@)C is

CO_(2) gas is bubbled through water during a soft drink manufacturing process at 298 K. If CO_(2) exerts a partial pressure of 0.835 bar then x m mol of CO_(2) would dissolve in 0.9 L of water. The value of x is ________ . (Nearest integer) (Henry's law constant for CO_(2) at 298 K is 1 . 67 xx 10^(3) bar )

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO is 2.0 and 4.0 atm, respectively, at equilibrium. The K_(p) of the reaction is

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?

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) )

Acid rain takes place dur to combination of acidic oxides with water and it is an envirronmental concern all over the world. Assuming rain water is uncontaminated with HNO_(3) or H_(2)SO_(4) and is in equilibrium with 1.25 xx 10^(-4) atm CO_(2) . The Henry's law constant (K_(H)) is 1.25 xx 10^(6) "torr". K_(a_(1)) of H_(2)CO_(3) = 4.3 xx 10^(-7) Given : K_(f)CuCI^(Theta) = 1.0 (K_(f) is formation constant of CuCI^(o+)) What is the pH of neturak rain water ?