Dry ice is solid carbon dioxide. A 0.050 g sample of dry ice is placed in an evacuated 4.6 L vessel at `30^(@)C`. Calculate the pressure inside the vessel after all the dry has been converted to `CO_(2)` gas.

Decomposition of ammonium chloride is an endothermic reaction. The equilibrium may be represented as: NH_(4)Cl(s) hArr NH_(3)(g)+HCl(g) A 6.250 g sample of NH_(4)Cl os placed in an evaculated 4.0 L container at 27^(@)C . After equilibrium the total pressure inside the container is 0.820 bar and some solid remains in the container. Answer the followings The amount of solid NH_(4)Cl left behind in the container at equilibrium is

Decomposition of ammonium chloride is an endothermic reaction. The equilibrium may be represented as: NH_(4)Cl(s) hArr NH_(3)(g)+HCl(g) A 6.250 g sample of NH_(4)Cl os placed in an evaculated 4.0 L container at 27^(@)C . After equilibrium the total pressure inside the container is 0.820 bar and some solid remains in the container. Answer the followings If the volume of container were doubled at constant temperature, then what would happen to the amount of solid in the container.

Decomposition of ammonium chloride is an endothermic reaction. The equilibrium may be represented as: NH_(4)Cl(s) hArr NH_(3)(g)+HCl(g) A 6.250 g sample of NH_(4)Cl os placed in an evaculated 4.0 L container at 27^(@)C . After equilibrium the total pressure inside the container is 0.820 bar and some solid remains in the container. Answer the followings The value of K_(p) for the reaction at 300 K is

4 g of O_2 and 2g of H_2 are confined in a vessel of capacity 1 litre at 0^@C . Calculate the partial pressure of each gas, and

4g of O_(2) and 2g " of " H_(2) are confined in a vessel of capacity 1 litre at 0^(@)C . Calculate the total pressure of the gaseous mixture.

A vessel of 4.00L capacity contains 4.00 g of methane and 1.00 g of hydrogen at 27^(@)C . Calculate the partial pressure of each gas and also the total pressure in the container.

4 g of O_2 and 2g of H_2 are confined in a vessel of capacity 1 litre at 0^@C . Calculate the number of moles of each gas

2 moles each of hydrogen, carbon dioxide and chlorine are mixed in a close vessel of volume 3 litres and temperature 0^@ C . Calculate the pressure exerted by the mixture. ( R=8.31 J mol^(-1) K^(-1) )

A vessel of capacity 3 litres contains 22g of CO_(2) and 28 g of nitrogen at 30^(@)C . Calculate the partial pressure and hence the total pressure exerted by the gas mixture. R = 8.31 J m o l^(-1) K^(-1) .

2 moles of each of hydrogen, carbon dioxide and chlorine are mixed in a close vessel of volume 3 litres and temperature 0^(@)C . Calculate the pressure exerted by the mixture. (R=8.31" J "mol^(-1)K^(-1))