Henry's law constant for `CO_2` in water is `1.67xx10^8` Pa at 298 K. Calculate the quantity of `CO_2` in 500 mL of soda water packed under 2.5 atm `CO_2` pressure at 298 K.

Calculate the production of ATP, CO_2 and water in respiration.

The degree of dissociation of water is 1.8 xx 10^(-9) at 298 K. Calculate the ionisation constant and ionic product of water at 298 K

Calculate the partial pressure of SO_2 in a mixture with 60% CO_2 and total pressure being 4 atm.

How much quantity of CO_2 will be evoluted when 500 gm limestone is heated?

Calculate the formula weight of compounds K_2CO_3

Equilibrium constant for a reaction 1.6xx10^(-6) at 298K. Calculate standard free energy change (DeltaG^(0)) and standard entropy change (DeltaS^(0)) of the reaction wat that pressure. Given, at 298K, DeltaH^(0)=25.34kJ .

The solubility of magnesium hydroxide in water is 8.35 xx 10^(-3) gm//L at 298 K. Calculate its solubility product at this temperature. (Molar mass of Mg is 24 gm)

At 540, the equilibrium constant K_(p) for PCl_(5) dissociation equilibrium at 1.0 atm 1.77 atm. Calculate equilibrium constant in molar concentration (K_(c)) at same temperature and pressure.

A solution containing 30 g of non-volatile solute exactly in 90 g of water has a vapour of 2.8 kPa at 298 K. Further, 18g of water is then added to the solution and the new vapour pressure becomes 2.9 kPa at 298 K. Calculate, molar mass of the solute

Calculate the volume occupied by 8.8g of CO_2 at 31.1^@C and 1 bar pressure.R=0.83bar Dm^3.k^1 mol^(-1)