To calculate the surface area of the activated carbon, we need to first determine the volume of nitrogen gas adsorbed as a monolayer on the carbon.Given:- Volume of nitrogen gas adsorbed = 10 mL- Mass of activated carbon = 0.1 g- Monolayer capacity = 0.5 mL/gFirst, we need to find the volume of nitrogen gas adsorbed as a monolayer:Volume of nitrogen gas adsorbed as a monolayer = mass of activated carbon monolayer capacity= 0.1 g 0.5 mL/g= 0.05 mLNext, we need to find the surface area of the activated carbon using the Brunauer-Emmett-Teller BET equation:Surface area A = V_mono N_A A_N2 / mass of activated carbon Where:- V_mono is the volume of nitrogen gas adsorbed as a monolayer 0.05 mL - N_A is Avogadro's number 6.022 10^23 molecules/mol - A_N2 is the cross-sectional area of a nitrogen molecule 0.162 nm First, we need to convert the volume of nitrogen gas adsorbed as a monolayer from mL to moles. We can use the ideal gas law equation PV = nRT for this conversion:n = PV / RTWhere:- P is the pressure 1 atm - V is the volume 0.05 mL = 0.00005 L - R is the ideal gas constant 0.0821 L atm/mol K - T is the temperature 25C = 298 K n = 1 atm 0.00005 L / 0.0821 L atm/mol K 298 K n = 2.03 10^-6 molNow we can calculate the surface area of the activated carbon:A = 2.03 10^-6 mol 6.022 10^23 molecules/mol 0.162 nm / 0.1 g A = 2.01 10^18 nm/gSo, the surface area of the activated carbon is approximately 2.01 10^18 nm/g.