At 1 atm and 273 K the volume of nitrogen gas required to cover a sample of silica gel, assuming Langmuir monolayer adsorption , is found to be `1.30 cm^(3)g^(-1)` of the gel. The area occupied by a nitrogen molecule is `0.16nm^(2)`. Find out the no. of surface sites occupied per molecule of `N_(2)`.

AT STP the volume of nitrogen gas required to cover a sample of silica gel, assuming Langmuir monolayer adsorption, is found to be 1.3^30^1 of the gel. The area occupied by a nitrogen molecule is 0.1 0^2 What is the surface area per gram of silica gel? [Given N_A =6 diamond ^2 ]

The volume of nitrogen gas Vm (at STP) reqired to cover a sample of silica gel with a monomolecular layer is 129cm^(3)g^(-1) of gel. Calculate the surface area per gram of the gel if each nitrogen molecule occupies 16.23xx10^(-20)m^(2) .

The volume of nitrogen gas Um (measured at STP) required to cover a sample of silica get with a mono-molecular layer is 129 cm^(3) g^(-1) of gel. Calculate the surface area per gram of the gel if each nitrogen molecule occupies 16.2 xx 10^(-20) m^(2).

Around 20% surface sites have adsorbed N_(2) . On heating N_(2) gas evolved form sites and were collected at 0.001 atm and 298 K in a container of volume 2.46cm^(3) the density of surface sites is 6.023xx10^(14)cm^(-2) and surface area is 1000cm^(2) find out the number of surface sites occupied per molecule of N_(2) .

Around 20% surface sites have adsorbed N_(2) . On heating N_(2) gas evolved form sites and were collected at 0.001 atm and 298 K in a container of volume 2.46cm^(3) the density of surface sites is 6.023xx10^(14)cm^(-2) and surface area is 1000cm^(2) find out the number of surface sites occupied per molecule of N_(2) .

A catalyst adsorb 100 mL of nitrogen gas at S.T.P. Per gram of catalyst surface and forms a monomolecular layer. The effective surface area occupied by one nitrogen molecules on the surface of catalyst is 0.16 xx 10^(-14) cm^(2) . What is the total surface area occupied by nitrogen molecules per gram of catalyst? (Given : Volume of gas at STP = 22.4 L)

10 % sites of catalyst bed have adsorbed by H_(2) on Heating H_(2) gas is evloved from sites and collected at 0.03 atm and 300 K in a small vessel of 2.46 cm^(3) . no. of sites available is 5.4 xx 10^(16) per cm^(2) and surface area is 1000 cm ^(2) . find out the no. of suface sites occupied per molecule of H_(2) .

10 % sites of catalyst bed have adsorbed by H_(2) on Heating H_(2) gas is evloved from sites and collected at 0.03 atm and 300 K in a small vessel of 2.46 cm^(3) . no. of sites available is 5.4 xx 10^(16) per cm^(2) and surface area is 1000 cm ^(2) . find out the no. of suface sites occupied per molecule of H_(2) .

Calculate the pressure exerted by one mole CO_2 ​of gas at 273 K, if the van der Waal's constat "a"=3.502 dm^6atm^(-2) . Assume that the volume occupied by CO_2 molecules is negligible.

Calculate the pressure exerted by one mole of CO_(2) gas at 273 K van der Waals constant a=3.592 dm^(6) atm mol^(-2) . Assume that the volume occupied by CO_(2) molecules is negligible.