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)

Calculate the surface area of a catalyst that adsorbs 10^3 cm^3 of N_2 (reduced of STP) per gram in order to form the monolayer.The effective area occupied by N_2 molecule of the surface is 1.62×10^(−15)cm^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).

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 ]

A gas cylinder contains 24 xx 10^(24) molecules of nitrogen gas. If Avogadro's number is 6 xx 10^(23) and the relative atomic mass of nitrogen is 14, calculate : Volume of nitrogen at S.T.P. in dm^(3) .

Twenty precent of the surface sites of a catalyst is occupied by nitrogen molecules. The density of surface sites is 6.023xx10^(14)cm^(-2) . The total sarface area is 1000cm^(2) . The catalyst is is henced to 300K and nitrogen is completely desorbed a pressure of 0.001 atm and volume of 2.46cm^(3) . Calculate the number of sites occupied by niitrogen molecules.

Volume of N_(2) at 1 atm, 273 K required to form a monolayer on the surface of iron catalyst is 8.15ml//gm of the adsorbent. What will be the surface area of the adsorbent per gram if each nitrogen molecule occupies 16 xx 10^(-22)m^(2) ? [Take : N_(A)=6xx10^(23) ]

One gram mole of a monoatomic gas occupies 22.4 L at S.T.P

One gram of charcoal adsorbs 400 " mL of " 0.5 M acetic acid to form a mono layer and the molarity of acetic acid reduced to 0.49. Calculate the surface area of charcoal adsorbed by each molecule of acetic acid. The surface area of charcoal is 3.01xx10^(2)m^(2)g^(-1) .