Henry's law constant for `CO_(2)` in water is `1.67xx10^(8) Pa` at `298 K`. Calculate the quantity of `CO_(2)` in `500mL` of soda water when packed under `2.5atm CO_(2)` pressure at `298 K`.

Henry's law constant for CO_(2) in water is 1.67xx10^(8) Pa at 298 K . Calculate the quantity of CO_(2) in 500mL of soda water when packed under 2.5 atm CO_(2) pressure at 298 K .

(a) Explain why on addition of 1 mole glucose to 1 litre water the boiling point of water increases . (b) Henry's law constant for CO_(2) in water is 1.67ccxx 10^(8)Pa at 298K. Calculate the number of moles of CO_(2) in 500 ml of soda water when packed under 2.53xx10^(5) Pa at same temperature.

henry's law constant for CO_(2) in water is 2.5xx10^(8) Pa at 298K calcualte mmole of CO_(2) dissolbed in 144 g water at 2.5 atm pressure at 298K. [take 1 atm =10^(6)(N)/(m^(2)) or Pa]

The Henry's law constant for CO_(2) in water at 298 K is 1.67 kbar. Calculate the solubility of CO_(2) at 298 K when the pressure of CO_(2) is one bar.

The solubility product of PbCl_(2) at 298K is 1.7 xx 10^(-5) . Calculate the solubility of PbCl_(2) in g L^(-1) at 298K

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.

Henry's law constant for the molality of methane in benzene at 298K is 4.27xx10^(5)mm Hg . Calculate the solubility of methane in benzene at 298 K under 760 mm Hg .

Henry's law constant for the molality of methane in benzene at 298K is 4.27xx10^(5)mm Hg . Calculate the solubility of methane in benzene at 298 K under 760 mm Hg .

The Henry's law constant for the solubility of N_(2) gas in water at 298 K is 1.0 xx 10^(5) atm . The mole fraction of N_(2) in air is 0.8 . The number of moles of N_(2) from air dissolved in 10 moles of water at 298 K and 5 atm . Pressure is:

Henry's law constant for the molality of methane in benzene at 298 K is 4.27xx10^(5)mm Hg. Calculate the solubility of methane in benzene at 298 K under 760 mm Hg.